The HMA425U6AFR6N-UH is a 16GB DDR4-2400MHz CL17 UDIMM memory module manufactured by Hynix Semiconductor. This unbuffered DIMM (UDIMM) is designed for use in desktop computers and workstations, providing high-speed and reliable memory performance. It is a single-rank module with a 288-pin interface and operates at a voltage of 1.2V.

Applications

• Desktop Computers
• Workstations
• Gaming PCs
• General Computing

Features

• 16GB Capacity: Provides ample memory for demanding applications.
• DDR4 Technology: Offers faster data transfer rates and lower power consumption compared to DDR3.
• 2400MHz Speed: High memory clock speed for improved performance.
• CL17 Latency: CAS Latency of 17 cycles.
• UDIMM Form Factor: Unbuffered DIMM for desktop computers.
• 1.2V Voltage: Low voltage operation for energy efficiency.
• 288-Pin Interface: Standard DDR4 DIMM interface.

Benefits

• Improved System Performance: Faster memory speeds enhance overall system responsiveness.
• Increased Multitasking Capability: Larger memory capacity allows for running multiple applications simultaneously.
• Enhanced Gaming Experience: High-speed memory improves frame rates and reduces lag in games.
• Energy Efficiency: Low voltage operation reduces power consumption and heat generation.
• Reliable Performance: Hynix Semiconductor is a reputable manufacturer known for quality memory products.

Additional Details

The HMA425U6AFR6N-UH module operates at a data transfer rate of 2400MHz, which translates to PC4-19200. It has a CAS latency (CL) of 17, which is a measure of the delay between the memory controller requesting data and the memory module providing it. This module is a single-rank module, meaning that the memory chips are arranged on one side of the PCB. It supports XMP (Extreme Memory Profile) for easy overclocking (if supported by the motherboard). The module is compliant with JEDEC standards, ensuring compatibility with a wide range of desktop computers and workstations. This 16GB DDR4 module is a reliable and high-performance upgrade for systems requiring increased memory capacity and speed.