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| Product Overview |
|---|
The JG227-61101 - HP 10Gb/s 10GBase-DWDM SMF1539.77nm 80km XFP Transceiver is a compact optical module that enables long-distance 10Gb/s data transmission over single-mode fiber. It fits into network equipment with XFP slots, providing a stable wavelength-specific signal that supports dense wavelength division multiplexing setups. |
| General Information | |
|---|---|
| Brand | HP |
| Technical Information | |
|---|---|
| Form Factor | XFP |
| Media | SMF |
| Type | DFB |
| Protocols | 10GBase-DWDM,10GbE |
| Connector | LC Duplex |
| Physical Characteristics | |
|---|---|
| Weight | 3.00 |
| Condition | Refurbished |
| Product Description |
|---|
The JG227-61101 transceiver delivers 10-gigabit per second connectivity using Dense Wavelength Division Multiplexing (DWDM) over single-mode fiber. It is commonly found in telecom networks and data center environments where long-distance optical transmission is required. Built for network engineers and IT professionals managing enterprise or carrier-grade infrastructures, this module supports high bandwidth demands with precision wavelength control. Key Features
This transceiver plays an important role in extending network reach while maintaining signal integrity. Its performance and reliability support efficient scaling of optical networks without additional fiber installation. The module's precise wavelength operation also aids in dense channel multiplexing, making it a practical component in modern high-speed network architectures. |
| Use Cases |
|---|
This transceiver is typically deployed in environments requiring reliable long-haul optical links, such as telecom backbone networks and data centers connecting multiple sites. It suits operators and infrastructure teams focused on maintaining high bandwidth and low latency over extended fiber routes. How It's Used:
In these settings, the transceiver helps maintain network performance and scalability by delivering precise wavelength signals with minimal loss or interference. This supports operational continuity and bandwidth growth within complex optical infrastructures. |