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| Product Overview |
|---|
The 1990-3431 HP X131 10G X2 Sc Er Transceiver serves as a vital component for establishing 10 Gigabit Ethernet connectivity over multimode fiber. It fits into network switches and devices that require reliable short-range optical communication, offering a balance of speed and compatibility without unnecessary complexity. |
| General Information | |
|---|---|
| Brand | HP |
| Technical Information | |
|---|---|
| Form Factor | X2 |
| Media | SMF |
| Type | DFB |
| Protocols | 10GBase-ER |
| Physical Characteristics | |
|---|---|
| Weight | 3.00 |
| Condition | Refurbished |
| Product Description |
|---|
The 1990-3431 HP X131 10G X2 Sc Er Transceiver is designed to enable high-speed data transmission over short distances using multimode fiber optic cabling. Often found in networking hardware, this transceiver supports 10 Gigabit Ethernet connections, providing reliable and efficient communication links. Built for IT professionals and network administrators, it integrates smoothly into HP network switches and devices, facilitating robust network performance. These transceivers are commonly used in data centers and enterprise network environments. Key Features
This transceiver plays a critical role by providing a dependable optical interface for high-speed network connectivity. Its consistent performance and standard compliance make it a practical choice for maintaining network integrity and speed. With a focus on stable and smooth data transmission, the transceiver supports ongoing network demands without compromising reliability or efficiency. |
| Use Cases |
|---|
This transceiver is typically deployed in enterprise networking environments where high bandwidth and reliable fiber optic connections are necessary. Networking teams responsible for maintaining data centers or campus networks find this component useful for upgrading or expanding fiber links. How It's Used:
By enabling robust optical connections, this transceiver helps maintain network performance and scalability. It supports operational efficiency by ensuring critical data paths remain stable and capable of handling demanding workloads. |