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Infineon HYS64T128020HU 1GB DDR2-533MHz PC2-4200 Non-ECC Unbuffered CL4 240-Pin UDIMM 1.8V Dual Rank...
- Memory Capacity: 1GB
- Memory Type: DDR2 SDRAM
- Speed: 533MHz (PC2-4200)
- Latency: CL4
- Form Factor: 240-Pin UDIMM
- Voltage: 1.8V
- Features: Non-ECC, Unbuffered
- Rank: Dual Rank
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Product Overview
The Infineon HYS64T128020HU is a 1GB DDR2 SDRAM module designed for enhanced system performance. It operates at 533MHz (PC2-4200) with a CAS latency of 4, providing efficient data handling. This non-ECC unbuffered UDIMM is a dual-rank module, suitable for a variety of desktop and server applications requiring reliable memory.
Technical Information
| Memory Size | 1GB |
| Memory Type | DDR2 SDRAM |
| Speed | 533MHz |
| Module Type | PC2-4200 |
| CAS Latency | CL4 |
| Voltage | 1.8V |
Additional Specifications
| ECC | Non-ECC |
| Buffering | Unbuffered |
| Pin Count | 240-Pin |
| Form Factor | UDIMM |
| Rank | Dual Rank |
Product Description
The Infineon HYS64T128020HU is a 1GB memory module built using DDR2 SDRAM technology. It is engineered to operate at a frequency of 533MHz, which corresponds to the PC2-4200 specification, indicating its data transfer rate capabilities. This module is designed for systems that benefit from increased memory capacity and speed, such as workstations, gaming PCs, and entry-level servers. The module adheres to the 240-pin UDIMM (Unbuffered Dual In-line Memory Module) standard, which is common for DDR2 memory. It operates at a voltage of 1.8V, contributing to power efficiency. The non-ECC designation signifies that it does not include error-checking and correction capabilities, making it suitable for applications where data integrity is managed at a higher system level or where the cost and performance overhead of ECC are not desired. A key characteristic of this module is its dual-rank configuration. Dual-rank modules contain two independent sets of memory addresses, allowing the memory controller to access data from one rank while the other is being refreshed or is otherwise occupied. This can potentially improve performance by increasing the effective bandwidth, especially in systems designed to take advantage of it. The CL4 CAS latency rating specifies the timing characteristics for data access.
