The Edimax EW-7612PIn V2 N300 Wireless PCI Express Adapter is an easy way to add Wi-Fi connectivity to your desktop computer. Built with the 802.11n standard, 2T2R MIMO technology, and two high-gain 3 dBi detachable antennas, this wireless PCIe adapter allows for fast and stable wireless networking with data speeds of up to 300Mbps. It can be easily set up with the bundled EZmax multi-language setup wizard, and it comes with a low-profile bracket for installation on small computers.
The Edimax EW-7612PIn V2 allows for increased wireless coverage and higher data transmission rates. The latest wireless technology is built into this device to broaden its wireless coverage by 5 times and to reduce dead spots within the wireless range. The EW-7612PIn V2 complies with wireless IEEE 802.11b/g/n standards and can reach data transmission rates of up to 300 Mbps when connected to wireless 802.11n devices. It also extends its wireless signal distance, and provides more reliable wireless connections than standard IEEE 802.11b/g wireless networks.
The EW-7612PIn V2's exceptional chipset offers increased bandwidth and more functionality than other PCI network adapters. This adapter is specifically designed to utilize the full bandwidth capacity of the PCI Express bus, thus eliminating collisions and latencies that exist with current 32-bit and 64-bit PCI bus architectures.
Wi-Fi protected setup (WPS) button
The Edimax EW-7612PIn V2 features a convenient WPS button. Users can set up an encrypted wireless connection simply by pressing the WPS button on this adapter and a WPS-enabled wireless access point. This one-click WPS button helps users set up a secure wireless network in less than a minute.
High-gain 3 dBi detachable antennas for improved wireless performance
The EW-7612PIn V2 comes with two high-gain 3 dBi detachable antennas, which enable it to achieve better signal quality compared to common wireless adapters. The antennas' detachable design also gives users the flexibility of using the antennas with extension cables for optimal antenna placement.