Product Id: 27943049
Description: Allied Telesis AT-2911GP/SFP - Network adapter - PCIe 2.0 low profile - SFP (mini-GBIC) x 1 + Gigabit Ethernet (PoE+) x 1 - government, federal government
Mfr Part #: AT-2911GP/SFP-901
Allied Telesis 2911GP Series PoE+ Network Interface Cards enable a PC to power a VoIP phone or other traditional copper Powered Device (PD) over a secure fiber network.
- VLAN support
- Link aggregation
- PCIe 2.0
- Secured transmissions
- Advanced installation utility
- Advanced diagnostics
- Remote boot (PXE 2.1)
- TCP/IP checksum off-loading
- Priority queueing
- Driver support for popular operating systems
- Available with SC, LC, or SFP connectors
- Compliant with the Trade Agreement Act
- Microsoft-certified drivers
- RoHS compliant
- Low-profile and standard height brackets included (low-profile attached)
- VoIP/PoE flexibility
The AT-2911GP is a two-port adapter with a 1000SX, LX, or SFP fiber port and a 10/100/1000T copper port capable of supporting Class 4 PoE+ devices. The AT-2911GP is unique in that it allows copper devices such as VoIP phones, Wi-Fi access points, and cameras to communicate through a secured fiber network - without the additional expense of media converters or a separate network to segment the traffic, thus saving installation and maintenance costs.
A small Windows-based application, ATMUX, bridges data between the copper port, the computer, and the fiber port, Key Features allowing each interface to be prioritized and separated into a private VLAN for transportation over the fiber link.
- Advanced manageability
The priority queuing offered by the AT-2911GP can help users set up the network based on their own needs. The comprehensive diagnostics and configuration software suite provides system administrators and engineers with a powerful tool to analyze the interface card and check specific data.
- More Bandwidth with PCI-Express Interface
The AT-2911GP PCI-Express (PCIe x1) design offers the maximum possible bandwidth and bus efficiency while providing the benefits of low power consumption.