#upgradetobetter

Home/Memory/Server Memory/Micron MT9HTF12872FZ-667HZD6ES 1GB DDR2-667MHz FB-...
Micron MT9HTF12872FZ-667HZD6ES 1GB DDR2-667MHz FB-DIMM 1Rx8 CL5 Memory

Micron MT9HTF12872FZ-667HZD6ES 1GB DDR2-667MHz FB-DIMM 1Rx8 CL5 Memory

SKU:MT9HTF12872FZ-667HZD6ES
  • 1GB DDR2 SDRAM
  • 667MHz Speed
  • FB-DIMM (Fully Buffered DIMM) form factor
  • 1Rx8 memory organization
  • CL5 CAS Latency
  • Designed for server and workstation use
  • Voltage: 1.8V
Get a Quick Price Quote

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

Details

Product Overview

This Micron memory module is a 1GB DDR2-667MHz FB-DIMM designed for server and workstation environments. It operates at a speed of 667MHz with a CAS latency of 5, providing efficient data transfer for demanding applications.

Technical Information

Memory TypeDDR2 SDRAM
Capacity1GB
Speed667MHz
Form FactorFB-DIMM

Additional Specifications

Rank1Rx8
CAS LatencyCL5
Voltage1.8V

Product Description

The Micron MT9HTF12872FZ-667HZD6ES is a high-performance memory module engineered to meet the rigorous demands of enterprise computing. As a DDR2 Fully Buffered DIMM (FB-DIMM), it offers enhanced bandwidth and improved signal integrity compared to traditional unbuffered DIMMs, making it ideal for memory-intensive server applications. This module features a 1GB capacity and operates at a clock speed of 667MHz, ensuring rapid data access and processing. The 1Rx8 memory organization signifies a single rank with eight memory chips per rank, contributing to its overall efficiency. With a CAS latency of 5 (CL5), it provides a balance between speed and stability, crucial for maintaining system responsiveness under heavy loads. The FB-DIMM architecture incorporates an Advanced Memory Buffer (AMB) chip on each module, which serializes data traffic between the memory controller and the DRAM devices. This design significantly reduces the electrical load on the memory controller, allowing for higher memory capacities and speeds, and ultimately enhancing system scalability and performance in server environments.

Condition:Refurbished

Related Products

Loading Related Inventory...