The EM6GC16EWXC-12H is a high-performance DDR3 SDRAM (Double Data Rate 3 Synchronous Dynamic Random-Access Memory) component from Etron Technology, designed for applications requiring high bandwidth and low latency. It's often used in systems demanding fast memory access for optimal performance.

Applications:

• High-Performance Computing: Used in workstations and servers to accelerate data processing and application execution.
• Gaming PCs: Provides the necessary memory bandwidth for smooth and responsive gaming experiences.
• Embedded Systems: Integrated into industrial control systems, networking equipment, and other embedded applications requiring high memory performance.
• Graphics Cards: Used as video memory to store and process textures and other graphical data.

Features:

• DDR3 Technology: Provides significantly higher data transfer rates compared to previous DDR generations.
• High Bandwidth: Delivers substantial memory bandwidth for demanding applications.
• Low Power Consumption: Operates at a lower voltage than previous DDR generations, reducing power consumption.
• Improved Signal Integrity: Features improved signal integrity for reliable data transfer.
• RoHS Compliant: Manufactured in compliance with RoHS environmental standards.

Benefits:

• Increased System Performance: Enables faster data processing and application execution, leading to improved system performance.
• Enhanced Gaming Experience: Provides smooth and responsive gaming experiences with high frame rates.
• Reduced Power Consumption: Lowers power consumption, extending battery life in portable devices and reducing overall system power consumption.
• Improved System Reliability: Enhanced signal integrity and high-quality components contribute to improved system reliability.

Additional Details:

The EM6GC16EWXC-12H typically operates at a clock speed of 800 MHz, resulting in a data transfer rate of 1600 MT/s. It is usually available in a FBGA (Fine-pitch Ball Grid Array) package and is designed to operate within a specified temperature range to ensure stable and reliable performance. Specific power consumption and latency figures can vary depending on the exact module configuration and operating conditions, consult the relevant datasheet for precise specifications.