The NT5DS16M16CS-5TI is a 256Mb DDR SDRAM (Double Data Rate Synchronous Dynamic Random-Access Memory) chip manufactured by NANYA. This memory component is designed for high-speed data transfer applications, commonly found in various computing and embedded systems.

Applications:

• Desktop and laptop computers
• Graphics cards
• Networking devices (routers, switches)
• Embedded systems requiring high-bandwidth memory
• Gaming consoles

Features:

• Capacity: 256Mb (16M x 16)
• Data Rate: DDR (Double Data Rate)
• Clock Frequency: Specified by -5TI (Likely corresponds to a specific clock speed, which dictates data transfer rate. Research suggests this relates to a 200MHz clock)
• Voltage: Typically 2.5V
• Interface: Standard DDR SDRAM interface
• Operating Temperature: Standard commercial operating temperature range
• Package: Likely a TSOP (Thin Small Outline Package) for surface mounting

Benefits:

• High Bandwidth: DDR technology enables faster data transfer rates compared to traditional SDRAM.
• Increased Performance: Improves overall system performance by providing quick access to data.
• Lower Power Consumption: Operates at a relatively low voltage (2.5V), contributing to energy efficiency.
• Compact Size: TSOP packaging allows for space-saving integration on printed circuit boards.
• Reliability: NANYA is a reputable manufacturer known for producing reliable memory components.

Additional Details:

The NT5DS16M16CS-5TI conforms to JEDEC standards for DDR SDRAM, ensuring compatibility with a wide range of systems. Its 16M x 16 organization means it's structured as 16 million memory locations, each capable of storing 16 bits of data. The -5TI suffix denotes specific speed and timing characteristics. For specific timing parameters (CAS latency, RAS-to-CAS delay, etc.), refer to the official NANYA datasheet for this part number. This memory is suitable for applications where a balance of performance, power efficiency, and cost is crucial. The standard DDR interface simplifies integration into existing system designs, while the high bandwidth capabilities support demanding workloads.