Unified Wireless N PoE Access Point
- Dostupnost produktu (Revision A2): Dostupný
The DWL-2600AP is an entry level indoor access point designed to enable businesses to deploy low cost managed wireless networks.
The DWL-2600AP can work in standalone mode for initial deployment and then complemented by adding a D-Link Unified Wireless Switch or Controller to provide centralised wireless LAN management.
Smart Low Profile Design
The DWL-2600AP is an entry-level access point with the appearance of a smoke detector that can be discretely deployed onto any wall or ceiling (mount included).
Performance without Compromise
Incorporating the latest generation of Wireless N technology, the DWL-2600AP delivers great wireless performance and coverage in a compact design without breaking the bank.
Broadcast on 16 SSIDs Simultaneously
Fast seamless roaming
Combining the DWL-2600AP with a Unified Wireless Switch or Controller allows you to create a wireless network that enables people to move freely around a building without losing connectivity.
Managed using D-Link’s Wireless Controller or Unified Wireless Switch
All D-Link’s Unified Wireless Access Points can be managed using D-Link’s Wireless Controller or Unified Switch.
Single Band Wireless N
DWL-2600AP supports up to 300Mbps on the 2.4Ghz band
Secure and Green Design
The DWL-2600AP doesn’t compromise on functionality, it has a wireless scheduler feature, which turns off wireless operation when it isn’t needed, saving power and increasing network security.
Versatility built as Standard
Whether you intend to use a single Access Point or roll out a large corporate network, the DWL-2600AP coupled with D-Link's Wireless Controller or Switch makes managing your wireless network simple.
|Wireless Standard||B, G, N||B, G, N||B, G, N||B, G, N, AC|
|Frequency||2.4GHz||2.4GHz||2.4GHz, 5GHz||2.4GHz, 5GHz|
|Suggested number of users||Up to 25
|Up to 40
|Up to 75
|Up to 250
* Range indicates the maximum distance where the highest throughput can be achieved, anything beyond this distance results in a loss of throughput.