Safe Checkout
Secure Payments
Fast Delivery
Order Today
Free Shipping
Across the US
Easy Returns
Hassle-Free
Hynix HMT351U7AFR8C-H9T0-AA 4GB DDR3-1333MHz UDIMM 2Rx8 CL9 Memory
- Capacity: 4GB
- Type: DDR3 SDRAM
- Form Factor: UDIMM (Unbuffered DIMM)
- Speed: PC3-10600 (1333MHz)
- CAS Latency: CL9
- Rank: 2Rx8 (Dual Rank x8)
- Voltage: 1.5V
- ECC: Yes (Unbuffered ECC)
Click on Inquire to get latest price
Free U.S. Ground Shipping
Typically 1-2 handling + 3-7 transit days
Purchase orders accepted
For government, enterprise, data center, and small business customers.
Bulk Purchase Inquiry
Volume pricing and availability
Product Overview
The Hynix HMT351U7AFR8C-H9T0-AA is a 4GB DDR3 Unbuffered DIMM (UDIMM) memory module. It operates at 1333MHz with a CAS Latency of CL9 and features a 2Rx8 configuration, designed for standard servers and workstations.
Technical Information
| Memory Type | DDR3 SDRAM |
| Capacity | 4GB |
| Speed | 1333MHz |
| Form Factor | UDIMM |
Additional Specifications
| Rank | 2Rx8 |
| CAS Latency | CL9 |
| Voltage | 1.5V |
| ECC | Unbuffered ECC |
Product Description
This Hynix HMT351U7AFR8C-H9T0-AA module provides 4GB of DDR3 memory, suitable for a variety of computing platforms including standard servers and workstations. As an Unbuffered DIMM (UDIMM), it directly connects to the memory controller without intermediate registers, which is typical for non-server or smaller-scale server applications. The module operates at a speed of 1333MHz (PC3-10600), offering adequate bandwidth for everyday computing tasks and many business applications. Its dual-rank, x8 configuration (2Rx8) can provide performance advantages through rank interleaving, allowing for more efficient data access patterns. With a CAS Latency of CL9, this memory module offers a good balance of speed and reliability. It also supports Unbuffered ECC, which provides error detection and correction capabilities, enhancing system stability and data integrity. This makes it a practical choice for systems that benefit from ECC memory but do not require the higher density or specific signaling of RDIMMs.
