
Subscribe To Our Newsletter!
Subscribe to the newsletter to stay up to date with the latest news and most useful
Newsletter
↑
Back to Top
| Product Overview |
|---|
The P2-100GE-OTN is a high-capacity physical interface card designed to deliver four 100 Gigabit Ethernet ports using OTN technology. It fits into network environments where optical transport and data multiplexing over long distances are critical. The card supports essential OTN protocols and interfaces that enable smooth integration with existing infrastructure. |
| General Information | |
|---|---|
| Brand | Juniper Networks |
| Technical Information | |
|---|---|
| Product Type | Interface Card |
| Data Rate (Speed) | 100GbE |
| Data Center Bridging | No |
| Number of Ports | 4-Port (Quad) |
| Connectivity & Physical | |
|---|---|
| Cabling Type | Fiber Optic (SMF) |
| Weight | 3.00 |
| Condition | Refurbished |
| Miscellaneous | |
|---|---|
| Assembly Required | No |
| Compliance Standards | WEEE, RoHS, CE, FCC |
| Product Description |
|---|
The P2-100GE-OTN is a physical interface card that provides four 100 Gigabit Ethernet Optical Transport Network (OTN) ports. It is commonly found in advanced network equipment where reliable, high-capacity optical transport is essential. The card is built for network operators and engineers who require scalable and efficient bandwidth aggregation in optical networks. Key Features
This interface card plays a key role in enhancing network capacity and maintaining data integrity across fiber links. Its reliable performance and adherence to OTN standards contribute to stable and efficient optical transport operations. |
| Use Cases |
|---|
The P2-100GE-OTN card is typically deployed in service provider and enterprise optical networks where high bandwidth and data integrity are priorities. It is suited for environments requiring scalable optical transport solutions and efficient network resource utilization. How It's Used:
In these setups, the card facilitates consistent data throughput and network scalability, supporting operational efficiency while maintaining signal quality across complex optical pathways. |