BUNDLE of 6 Engenius EAP300 Business Class Indoor High power Long-range 800mW Wireless-N Access Point/WDS Bridge/WDS AP
Part: EAP300 X 6
Your price: $519.95
Availability: Currently Unavailable
EAP300 offers a "smoke detector" look, and is a high-powered (up to 29dBm) wireless-n access point / WDS Bridge / WDS AP operates seamlessly in the 2.4GHz frequency spectrum supporting 802.11 b/g/n standard high speed feature. It is the best way to add long range wireless capability to your existing wired network or to add bandwidth to your wireless installation.
EAP300 features high wireless output power and receive sensitivity along with antenna diversity. High output power and high sensitivity extend wireless coverage to reduce the roaming between access points and to provide a reliable wireless connection. It also reduces the total cost of ownership on hardware.
To protect your wireless connectivity, it can encrypt all wireless transmissions through 64/128bits WEP data encryption and also supports WPA/WPA2. The MAC address filtering lets you select exactly which stations should have access to your network. In addition, the user isolation function can protect the private network between client users.
The attractive design, high performance and array of features make the EAP300 a suitable wireless solution for your residence or office.
HIGH POWERED AMPLIFIER, LONG-RANGE WI-FI
Up to 29dBm RF Tx power provides greater Wi-Fi coverage over mainstream competitors
WIRELESS-N 6X SPEED OVER 802.11G NETWORKS
802.11N MIMO Technology delivers up to 300Mpbs high-speed data rate
“Smoke Detector” housing – Unobtrusive design supports easy mountable to wall and ceiling tile (accessories included)
Supports up to 4 BSSIDs with blocking SSID broadcast and wireless encryption 64/128-bit WEP, WPA/WPA2
Supports 802.1q mapping of SSIDs up to 4 VLANs
802.3af PoE Compatible
Supports Power over Ethernet (IEEE 802.3af) and allows deployment in areas where power outlets are not available
Internal 5dBi omnidirectional antenna with optimized configuration and RF performance