The M12L128168A6TIG2N is a 128M x 16 DDR2 SDRAM from Elite Semiconductor Memory Technology Inc. (ESMT). This memory chip is designed for high-performance applications requiring high bandwidth and low latency. It is a Double Data Rate 2 Synchronous DRAM, which means it can transfer data on both the rising and falling edges of the clock signal, effectively doubling the data transfer rate compared to single data rate SDRAM.

Applications:

• Desktop PCs
• Laptop Computers
• Graphics Cards
• Embedded Systems
• Networking Devices

Features:

• 128M x 16 organization
• DDR2 Interface
• Operating frequency up to 800MHz
• Double Data Rate architecture
• Differential clock inputs (CK, /CK)
• 8 internal banks for concurrent operation
• Write Latency = 0, 1, 2, 3
• Burst Length: 2, 4, 8
• RoHS compliant

Benefits:

• Provides high bandwidth for demanding applications such as gaming and video editing.
• Increases system performance due to its fast data transfer rates and low latency.
• Reduces power consumption compared to older memory technologies.
• Offers reliable data storage and retrieval.
• Compatible with a wide range of platforms supporting DDR2 memory.

Additional Details:

The M12L128168A6TIG2N operates at a voltage of 1.8V. It supports various burst lengths, including 2, 4, and 8. The chip includes 8 internal banks, enabling concurrent operation for higher efficiency. The data is transferred through a double data rate interface that significantly increases the effective bandwidth. The differential clock inputs (CK, /CK) ensure signal integrity and timing precision. It adheres to the JEDEC standards for DDR2 SDRAM, ensuring compatibility with other DDR2 devices. The operating temperature range is typically from 0°C to 85°C. This memory module is commonly used in systems requiring a balance between performance, power consumption, and cost.

The M12L128168A6TIG2N from ESMT is an excellent choice for systems requiring reliable, high-speed DDR2 memory. It is designed to meet the needs of a wide array of applications, providing substantial benefits in terms of system performance and power efficiency.