The DWL-8600AP is D-Link’s next generation Unifed Access Point supporting the IEEE 802.11n standard. Versatile and powerful, this device can be fexibly deployed as a stand-alone "fit" wireless Access Point or as a "thin" managed Access Point (AP) manageable from a wireless switch. Businesses can start with an intelligent DWL-8600AP that provides many advanced Wireless LAN functions, then migrate to a centrally managed system anytime later by integrating the same DWL-8600AP to a D-Link unifed wired/wireless switch.
Blazing Wireless Speeds
802.11n offers up to six times increased throughput when compared with existing 802.11a/g networks. The DWL-8600AP is also fully backwards compatible with 802.1a/b/g clients and allows for a 2x2:2* confguration with two Tx and Rx streams for each radio. Multiple In Multiple Out (MIMO) and wider bandwidth channels increase physical transfer rates while using 802.11. MIMO allows for more information to be coherently resolved by using several antennas instead of a single antenna. By employing the DWL-8600AP today, you can prepare your business for the future generation of wireless devices and mobile applications.
Green Technology & Advanced Power Saving
The DWL-8600 features scheduled and unscheduled Automatic Power Save Delivery (APSD). Unscheduled APSD (U-APSD) is a power management method that is more effcient than older 802.11 Power Save Polling. The primary beneft of U-APSD is that it allows for the voice client to synchronize the transmission and reception of voice frames with the AP, thereby allowing the client to go into power saving mode when not sending or receiving packets. The DWL-8600AP is fully compliant with 802.3af even when operating at maximum power. Unlike 802.11n Access Points from other manufacturers that require PoE+ or 802.3at when enabling both radios, the DWL-8600AP thus showcases D-Link’s continuous commitment to green technology.
Self Confguration and Easy Installation
When operating in conjunction with a DWS-4026 switch, the switch automatically confgures every connected “thin” DWL-8600AP, so no confguration is necessary during installation. If a DWL-8600AP needs to be replaced, the replacement DWL-8600AP automatically inherits the same confguration, making the replacement process a simple one.
Intelligent "Fit" Access Point
The DWL-8600AP has everything on-board that enables network administrators to set up a secure wireless network and to connect to any Ethernet-compliant switch and router. Advanced wireless functions that the DWL-8600AP supports include: WEP data encryption, WPA/WPA2 security, client MAC address fltering, AP load balancing, QoS/WMM (Wireless Multimedia), and Rogue AP Detection. Security confguration settings can be locally stored on the DWL-8600AP itself. Wireless connections can easily be expanded by adding more DWL-8600APs or other 802.11a/g/n compliant APs to the site. With AP Clustering, up to 8 APs can form a cluster for convenient management and confguration of all APs. Businesses without complicated network requirements can use the DWL-8600AP to get a wireless network set up and run without the need for any additional special hardware.
"Thin" AP Centrally Managed From Unifed Wired/Wireless Switch
Alternatively, the DWL-8600AP can operate in conjunction with a D-Link DWS-4026 unifed wired/wireless switch. In this mode, multiple DWL-8600APs can connect directly or indirectly to one of these switches to provide unparalleled security and wireless mobility for wireless clients. Each DWL-8600AP will be continually tuned by these switches to provide optimal RF channels and transmission power for all mobile clients, giving them the best wireless signals in both 2.4GHz and 5.0GHz bands and uninterrupted wireless connectivity.
Flexible Dualband Wireless LAN Connectivity
The DWL-8600AP delivers concurrent wireless performance with maximum wireless signal rates in both frequency bands simultaneously. With dualband connectivity, two wireless networks are created both running at full bandwidth speeds, offering a signifcant increase in total network capacity. At the same time, the DWL-8600AP remains fully backward compatible with the 802.11b standard in the 2.4GHz frequency.
Optimal Wireless Performance
The architecture of most current wireless LAN controllers requires wireless traffc to return to the controller for centralized processing, providing unnecessary traffc delay. The DWL-8600AP – when operating with a DWS-4026 switch – offers administrators extra options. Depending on the wireless application, wireless traffc can either be tunneled back to the switch for better security control, or locally forwarded at the access Point for optimal performance. This device offers administrators maximized fexibility with options to tunnel guest traffc to the switch for centralized security control, and forward VoIP traffc directly from the Access Point for optimal performance. The DWL-8600AP furthermore supports AP Clustering and Wireless Distribution System (WDS). WDS allows for the AP to act as a wireless bridge, connecting two different networks to each other without the need for a cable.
Total Security & Quality of Service
The DWL-8600AP continuously scans both frequency bands and their associated channels to detect rogues while simultaneously providing wireless connectivity to mobile clients. If a rogue is detected, it reports the result to the DWS-4026 wireless switch that manages it. From a management console, administrators can identify the rogue AP and take appropriate action. The DWL-8600AP supports 64/128/152-bit WEP data encryption, WPA/WPA2 security and multiple SSID per RF frequency band. Connected to the DWS-4026 switch, these functions along with wireless user MAC Address Filtering and SSID Broadcast Disable can be used to set up security and limit outsiders’ access to the internal network. The DWL-8600AP supports 802.1Q VLAN Tagging and WMM (Wi-Fi Multimedia) for important wireless transmissions such as VoIP and streaming media applications, delivering critical user-based services, such as prioritized delivery of voice traffc.
* AxB:C; A=max. number of transmitting antennas, B=max. number of receiving antennas, and C=max. number of data streams.