Like every other website on the planet, SmallNetBuilder uses cookies. Our cookies track login status, but we only allow admins to log in anyway, so those don't apply to you. Any other cookies you pick up during your visit come from advertisers, which we don't control.
If you continue to use the site, you agree to tolerate our use of cookies. Thank you!

Wi-Fi Router Charts

Click for Wi-Fi Router Charts

Mesh System Charts

Click for Wi-Fi Mesh System Charts


I tested the WN2000RPT's repeating performance using our standard test client, an Intel Wi-Fi Link 5300 AGN mini-PCIe card in a Dell Mini 12 running WinXP Home SP3 and version of the Intel drivers. I left all client-side defaults in place. The Extender was running firmware and associated with the NETGEAR WNDR3700, which is my current home router. The WNDR3700 is set to neighbor-friendly 20 MHz bandwidth mode (Up to 130 Mbps, in WNDR3700-speak) and Channel 11.

I initially left the WNDR3700 in its normal location, a lower level Utility room near the center of my home. But the first round of testing produced so much direct throughput from the WNDR3700 to my target "extension" area, that I had to relocate the WNDR3700 to my office and reduce transmit power down to 25% to reduce the WNDR3700's range so that I had someplace to "extend" into!

I started with the Extender and WNDR3700 in my office to run through the setup wizard. After setup, I took baseline measurements using IxChariot running a throughput.scr script with test file size set to 1,000,000 Bytes and TCP/IP.

Figure 7 shows performance with wireless client connected directly to the WNDR3700 (~ 44 Mbps), then with the client connected to the WN2000RPT via Ethernet, which provides essentially the same throughput (~ 45 Mbps). Finally, performance with the client wirelessly connected to the WNDR3700 via the Extender averaged just shy of 22 Mbps—just about half the Ethernet-connected value.

Baseline performance measurements

Figure 7: Baseline performance measurements

I then moved the Extender to an upstairs hallway location, about halfway between the WNDR3700 and my dead-zone kitchen test location E. Figure 8 shows the approximate locations of the WNDR3700 (Lower Level) and WN2000RPT (Upper Level).

WN2000RPT test locations

Figure 8:WN2000RPT test locations

Figure 9 shows four tests. The top trace is throughput of the test client connected to the WN2000RPT via Ethernet. This shows throughput available directly to Ethernet connected clients (i.e. bridge) or available to be repeated to wireless clients.

The next test listed is performance from wireless client through the WN2000RPT to the WNDR3700, i.e. repeated performance. Although maximum throughput recorded is 16 Mbps, something (I suspect rate hunting) caused pretty serious throughput variation. This knocked down average throughput over the 1 minute measurement period to 7 Mbps.

WN2000RPT performance - upstairs hall location

Figure 9: WN2000RPT performance - upstairs hall location

Next test shown is throughput with the client directly associated to the WNDR3700, i.e. without repeater. Throughput is steadier here and doesn't have the higher peaks that the repeated test showed, but averages about 6 Mbps.

The last trace listed (and second highest plotted) is throughput with the wireless client again associated directly with the WNDR3700, but with the WNDR3700's transmit power cranked back up to 100%. The 17 Mbps obtained via direct connection shows that, at least for this test location, there is no benefit in using the WN2000RPT. I'll come back to this shortly.

The last test moved the WN2000RPT to the kitchen, which put another wall between it and the WNDR3700, but located only about 6 feet away from the test client. It shows the wisdom of NETGEAR's put-it-halfway-between Extender location advice.

The first test with the client connected via Ethernet shows throughput drops from 27 Mbps with the Extender in the hallway to 6.5 Mbps with it moved only about 10 feet further away. In this case, those 10 feet put a lot more drywall and wood between the WN2000RPT and WNDR3700 when you look at the direct as-the-radio-waves-fly path, reducing signal strength and throughput accordingly.

WN2000RPT performance - upstairs kitchen location

Figure 10: WN2000RPT performance - upstairs kitchen location

The next test shows repeated performance, which at about 5 Mbps includes the repeater throughput "tax". Finally, I again included the non-repeated wireless test to show that, again, the WN2000RPT isn't really helping improve performance.

Closing Thoughts

As repeaters go, the WN2000RPT is a pretty nice product. The built-in setup wizard and front panel indicators make it simpler to set up than any other "wireless extender" that I've seen. And once set up, connection to both wireless router and clients were reliable. So if you're looking for a wireless extender to try, I'd give the WN2000RPT a shot.

But, once again, we see that wireless extenders aren't a sure-fire cure for what ails your wireless network. Since you start out with an automatic 50% throughput reduction, you really face a case of diminishing returns. Put the repeater close to your AP to give it highest throughput, and you probably won't see much range extension. Or the extension you see will have very low throughput. Put the repeater too far away, and its received throughput will be so low, that 50% of it may be, once again, too low for your needs.

If what you're looking for is increased range and you aren't too fussy about throughput, then wireless repeaters could be for you. But if you're hoping to improve low throughput for more reliable video streaming, you will probably be disappointed.

Support Us!

If you like what we do and want to thank us, just buy something on Amazon. We'll get a small commission on anything you buy. Thanks!

Don't Miss These

  • 1
  • 2