C. Crane US3 Super USB WiFi Antenna 3 High Power Long Range 802.11 B G N Wireless with 30-Foot USB Split Cable
Boost WiFi Signal Strength! This antenna is great for home, mobile, RV, travel and small business use. The Super USB WiFi Antenna 3 plugs into your computer for powerful WiFi Internet reception. Installation is a snap and performance is outstanding. While testing it in our small town of Fortuna, California we were able to see an additional 20 wireless networks! In further tests we were able to connect to a small wireless router from over 100 yards away, keeping 80% signal strength through several walls and obstructions.
The antenna incorporates a water resistant design for outdoor use (IP65 Rated), along with wireless "N" technology for lightning fast file transfers with your "N" router. The antenna mounts easily to a window with suction cups or to the wall using the lanyard and "hook and loop" mounting strip. If you are trying to receive a very distant signal from outdoors, then the best place for mounting the antenna is above the peak of your roof so that signals can be received from miles in every direction. A cable tie is included for pole mounting outdoors.
Compatible with 802.11 B, G, and N. Up to 150 Mbps. WEP, WPA, WPA2, WPS encryption compatible. Easy software included. Works with Microsoft Windows - XP, Vista, Vista x64, Windows 7, Windows 7 x64, Windows 8, Windows 8 x64, MAC OS 10.4-10.8.
Weight: 1.8 oz. Size: 1.4" W x 10" L x 0.6" D.
Note: The Super USB WiFi Antenna 3 requires installation of software drivers. The iPad®, iPhone®, Android®, game stations and similar devices are not capable of installing these software drivers.
Also includes a 15-Foot and 30-Foot USB Split Cable. Using this cable you can mount your Super WiFi USB Antenna-3 up to 30 feet away. One end of the cable has two regular Type-A male plugs and the other end has a single Mini-B male plug. The cable is high grade and designed to withstand outdoor use. Two ferrite beads on the cable reduce radiated interference noise and improve signal transfer.