Saw this while surfing around looking for information as I usually do all day.
http://www.dailywireless.org/2009/0...n-its-official/
"IEEE standardization will ensure interoperability and high speed. It will theoretically connect at 300Mbps, about six times the theoretical 54 Mbps peak speed of the previous 208.11g/a standards. Typical thoughput of “N” is expected to be around 144 Mbit/s.
Routers that support two spatial streams of data will be certified as “Dual-Stream N.” Theoretical maximum throughput for these routers will be up to 300 megabits per second. Routers with three or four spatial streams will be even faster, with theoretical throughput of 450 mbps or 600 mbps speeds.
A 100-300 Mbps “N” connection to a WiFi router won’t make your 10 Mbps cable modem connection any faster, of course. Still, 802.11n is expected to help businesses and education where hundreds of people are forced to share a single access point. The faster standard allows faster file sharing and better media handling, as well." - taken from HowardForums.com
http://www.dailywireless.org/2009/0...n-its-official/
"IEEE standardization will ensure interoperability and high speed. It will theoretically connect at 300Mbps, about six times the theoretical 54 Mbps peak speed of the previous 208.11g/a standards. Typical thoughput of “N” is expected to be around 144 Mbit/s.
Routers that support two spatial streams of data will be certified as “Dual-Stream N.” Theoretical maximum throughput for these routers will be up to 300 megabits per second. Routers with three or four spatial streams will be even faster, with theoretical throughput of 450 mbps or 600 mbps speeds.
A 100-300 Mbps “N” connection to a WiFi router won’t make your 10 Mbps cable modem connection any faster, of course. Still, 802.11n is expected to help businesses and education where hundreds of people are forced to share a single access point. The faster standard allows faster file sharing and better media handling, as well." - taken from HowardForums.com