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But before you crown Netgear’s router as the new king of hill, take a look at its performance when I moved the notebook into my media room: TCP throughput fell off a cliff, averaging an unusable 1.9Mb/sec. But at least I was able to maintain a connection with the Netgear; Belkin’s N1 and Buffalo’s WZR2-G300N couldn’t reach the notebook at all while it was in that room. Linksys’ WRT350N managed to squeeze a few bits through, but at an equally pathetic rate of just 1.9Mb/sec.
D-Link’s DIR-655, which was the top-performing router in the office tests, was the only router that managed to connect to the notebook in all five of my real-world testing scenarios. It lagged the rest of the field at close range, but it came in second place when the notebook was in my kitchen (Environment 2, below); it delivered throughput of nearly 22Mb/sec when the notebook was in my media room. It also delivered throughput that was faster than any of the other routers when I placed to notebook outside my house, and it was the only router that maintained a connection to the notebook (albeit, just barely) in both outdoor tests.
D-Link's DIR-655 delivered the best throughput in both our test scenarios.
Based on these tests, I’ll be using D-Link’s DIR-655 for at home, but I still don’t think any of the current generation of 802.11n equipment is worthy of a Maximum PC’s Kick Ass award.
| ENVIRON 1 |
ENVIRON 2 |
ENVIRON 3 |
ENVIRON 4 |
ENVIRON 5 | |
| BELKIN N1 | 58.8 | 18.0 | N/C | N/C | N/C |
| BUFFALO WZR2-G300N | 66.7 | 18.9 | N/C | N/C | N/C |
| D-LINK DIR-655 | 28.2 | 39.6 | 30.3 | 11.8 | .05 |
| LINKSYS WRT350N | 62.4 | 37.5 | 1.9 | N/C | N/C |
| NETGEAR WNR854T | 91.5 | 55.6 | 1.9 | 9.2 | N/C |
Speed measured in megabits per second. N/C = No Connection. Best scores in each category are bolded.
I didn’t test all the configurations in my home testing that I did for the feature. I set each router to its highest performance setting (802.11n only, with channel bonding enabled if the router in question supported such a configuration). The house I used for testing is a single-story, ranch-style home built on a concrete slab using 2x6 framing with fiber-cement clapboard siding. The interior partition walls are constructed of 0.5-inch drywall over 2x4 framing, with the exception of the media room (Environment 3 in the charts).
The media room consists of 2x6 interior framing with 0.5-inch drywall on one side. A second 2x4 interior framing wall is constructed six inches apart from the first and covered by two sheets of 0.5-inch drywall. The gap in between the two walls is filled by two layers of R19 insulation. The ceiling in this room is also covered by a double thickness of drywall. Since this is a room within a room, I installed two solid-core Masonite doors (one opens out into the foyer and the other opens in to the room) to further deaden the room and prevent sound from leaking out.
Each router was placed on top of a hutch-style desk (5.5 feet off the floor). I installed an 802.11n Draft 2.0 adapter card in a notebook PC configured with Windows XP and benchmarked each router in five different environments, which you can see here:
The router is placed on top of the hutch and the notebook PC is on the desk, about five feet from the router.
The notebook is located on a granite countertop, about 20 feet from the router, with one wall and a set of plywood cabinets separating the PC from the router.
The notebook is on a coffee table inside this double-walled, double-doored media room, about 35 feet from the router. There are five walls (three of which are insulated) separating the notebook from the router. (The doors are an exterior type in order to reduce sound leakage.)
The notebook is outside the house, 90 feet from and at on oblique angle to the router. There are two interior and one exterior walls (all of which are insulated) separating the notebook from the router.
The notebook is located outside the house 85 feet and at a right angle to the router. There is a set of plywood cabinets, four interior walls, and one exterior wall (all of which are insulated) separating the notebook from the router.
The closest house is quite a distance away, so there shouldn't be any router conflicts that would cause problems with channel bonding.
Comments are closed on this article
luvdr25
October 19, 2007 at 7:26am
I have a Belkin N1 and I am not a big fan of it, However I found that through extensive testing (buying wireless cards from buffalo linksys dlink and on and on trying to find one that will work with the N1) that a Hawking HWU54DZ allows me to go to the park about 1/4 mile from my house and still has great signal!
Check this thing out! yeah its measly wireless g but the signal was unbelievable! try it thats all I can say!Link: http://www.gohawking.com/store/product_info.php?manufacturers_id=11&products_id=179
D. Bengtson
