If your business has kept pace with changes in wireless networking, you've deployed dual-band routers and client adapters that can stream encrypted data over the airwaves at speeds greater than 100 megabits per second at relatively close range.
But no good deed goes unpunished. New hardware based on the nearly finished 802.11ac standard is about to debut, and it will make your existing wireless infrastructure feel as though it's mired in molasses.
Unlike 802.11n networking hardware, which can use either the 2.4GHz or the 5GHz frequency bands, 802.11ac devices will operate exclusively on the 5GHz band. The 2.4GHz band delivers better range, but Wi-Fi data streams that use it must compete with a multitude of other devices that operate at the same frequency--everything from microwave ovens to Bluetooth headsets). The 5GHz band contains many more available channels; and in the 802.11ac standard, each of those channels is 80MHz wide, versus the 40MHz width specified for channels under the 802.11n standard.
What's more, 802.11ac will use a modulation scheme that quadruples the amount of data that will fit on an encoded carrier signal. The maximum bandwidth per spatial stream in 802.11n is 150 mbps, which means that an 802.11n router outfitted with three transmit and three receive antennas can deliver maximum theoretical throughput of 450 mbps. In contrast, the maximum bandwidth in 802.11ac jumps to 433 mbps per spatial stream, and the maximum number of spatial streams increases from three to eight. So the theoretical maximum throughput on an 802.11ac network will eventually be several times that of gigabit ethernet. First-generation devices, however, will be limited to using either two or three transmit and receive antennas to deliver a theoretical throughput maximum of 866 mbps or 1.3 gbps).