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| Product Overview |
|---|
The 7023324 Sun 16Gb/Sec Short Wave SFP+ Transceiver Ql functions as a high-speed optical module that fits into SFP+ ports on network hardware. It handles data transfer at 16 gigabits per second, ideal for short-range fiber connections in data centers or SANs, supporting infrastructure that demands consistent bandwidth and low latency. |
| General Information | |
|---|---|
| Brand | Sun |
| Technical Information | |
|---|---|
| Form Factor | SFP+ |
| Media | MMF |
| Type | VCSEL |
| Protocols | Fibre Channel,16GFC |
| Connector | LC Duplex |
| Physical Characteristics | |
|---|---|
| Weight | 3.00 |
| Condition | Refurbished |
| Product Description |
|---|
This 16Gb/s short wave SFP+ transceiver is designed to facilitate fast, efficient data transmission over fiber optic cables. It is commonly used in storage area networks and high-performance computing environments where rapid data exchange is essential. Built for integration in switches, servers, and storage arrays, it supports the demanding needs of IT professionals managing network infrastructure. Key Features
Its practical role is to ensure seamless connectivity within fiber optic networks, providing reliable data transport without interruption. The transceiver's performance and compatibility make it a dependable component in network setups requiring scalability and steady throughput. Its design balances power efficiency with robust operation, suitable for ongoing enterprise use. |
| Use Cases |
|---|
This transceiver is typically deployed in enterprise data centers and storage networks where short-range, high-speed fiber connections are necessary. IT teams rely on it to maintain effective communication between servers, switches, and storage devices in controlled environments. How It's Used:
By facilitating reliable optical connections, this transceiver helps maintain the performance and scalability of networked storage and computing environments. It contributes to operational efficiency by ensuring data moves swiftly and without disruption across fiber channels. |