The H5AN8G8NMFR-UHC is a high-speed DDR4 SDRAM (Synchronous Dynamic Random-Access Memory) component from Hynix Semiconductor. It's engineered for systems that require substantial memory bandwidth and reduced latency, commonly found in high-performance computing, gaming, and server environments.

Applications

• High-Performance Gaming PCs
• Workstation Computers
• Server Applications
• Data Centers
• High-Resolution Video Editing Systems

Features

• Capacity: Typically 8Gb (Gigabits)
• DDR4 Technology: Implements DDR4 architecture, delivering improved speed and efficiency over earlier DDR versions.
• Data Transfer Rate: Supports a wide range of JEDEC-standard data transfer rates for versatile application.
• Operating Voltage: Operates at a low voltage (typically 1.2V), minimizing power consumption.
• Interface: Uses a standard DDR4 interface for broad system compatibility.
• RoHS Compliance: Manufactured according to RoHS standards for reduced environmental impact.
• FBGA Package: Employs a fine-pitch ball grid array (FBGA) package, enhancing thermal performance and simplifying board mounting.

Benefits

• Improved System Performance: Facilitates faster data processing, leading to increased system responsiveness.
• Reduced Power Usage: Conserves energy and minimizes heat output, extending battery life in portable applications.
• Enhanced Bandwidth: Supplies higher bandwidth for demanding tasks such as high-resolution gaming, video processing, and complex data analytics.
• Reliable Operation: Designed for stable and dependable functionality in various conditions.
• Broad Compatibility: Compatible with a multitude of DDR4-enabled platforms.

Additional Details

The H5AN8G8NMFR-UHC DDR4 SDRAM chip is built using premium-grade components and is subjected to exhaustive testing to guarantee reliability and high performance. It is specifically tailored to fulfill the rigorous needs of modern computing. For precise specifications regarding timings and speed grades, consult the official product datasheet. Its architecture enables concurrent read and write operations, which further optimizes performance. Furthermore, this module includes on-die termination (ODT) to bolster signal integrity and diminish signal reflections.