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ABomb wrote:

The WRT120N and WRT160N differ signiicantly in thier 11n specs and certifications. 

 

120N is single stream/channel (150Mbps max), has an Atheros chip and 2MB of flash

160N is dual stream/channel (300Mbps max), has a Broadcom chip and 4MB of flash (chip has changed through versions and one actually was a Ralink chip)

 

I copied that straight from the linksys forums.

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Thanks for that info.  As the OP guessed, the 10/100 spec is that for the wired network ports.

A few things to note with wireless vs. wired and N:

The wireless specs are the absolute max signaling rates used by the wireless network.  Because it is a shared media, collision sensing/collision avoidance overhead will mean your real-world throughput will rarely be more than half the signaling rate even with only one device "talking".

802.11n degrades heavily in the presence of legacy (b/g) devices in the same spectrum.  At full bandwidth, N uses the entire 2.4 GHz band, so in 90% of installations, it's going to degrade.

If you are not transferring files internally within your network, then with 95%+ of internet service providers, there is no point in getting anything beyond 802.11g - Most ISPs do not even provide enough bandwidth to saturate an 802.11g connection.

Wired with a switch is very different, those wired ports are capable of 100 Mbps in each direction simultaneously, and you can easily see 90-95% of that in real-world throughput.  If you're doing heavy file transfers in your internal network, use a wire.

802.11n is VERY situational, and IMO only is useful (compared to a good 802.11g router with an external antenna) when streaming HD recordings from a media server PC to a media center frontend PC, and only in the 5 GHz band.  (This is the only reason I have an 802.11n installation, it is running in the 5 GHz band independently of my 2.4 GHz G network.)