The Best Wi-Fi : New 802.11n Routers:

What a difference a couple of years makes. In our first roundup of draft-802.11n Wi-Fi routers (see "Wireless Routers: The Truth About Superfast Draft-N"), we found so many problems, we couldn't recommend any of them: Firmware was buggy, interoperability between vendors was hit-and-miss, and performance was not as good as that of some enhanced, earlier-generation 802.11g routers.

As of this year, we're happy to report, those issues have largely gone away. Although the standard is still technically in draft form and final ratification of 802.11n by the IEEE isn't expected until next year, the Wi-Fi Alliance has been certifying draft-2.0 n routers for interoperability and compatibility since last year, and the final version should largely be a formality that at most may require a firmware upgrade.

And the Wi-Fi certified products are worthy updates. With link rates--the nominal connection speeds, as opposed to real-world throughput--of up to 300 megabits per second (compared with 54 mbps for standard 802.11g) and extended range (thanks to multiple smart antennas), 802.11n Wi-Fi is the first Wi-Fi technology that can rival wired 100-mbps ethernet in performance. Upgrading your home router to 802.11n is thus one of the quickest and easiest ways to improve your network.

But choosing a particular 802.11n router has become more complicated than ever because the standard covers a lot of ground that lets vendors issue a dizzying array of product options, with literally dozens of models ranging in price from $50 to $250. D-Link alone has six 802.11n routers.

To give an idea of the options, we chose two widely available models in each of three categories: under-$90 routers for people who don't need maximum performance, but who can nonetheless benefit from 802.11n's improved range and speed; midrange (about $150) models that offer top wireless speeds and gigabit ethernet; and dual-band routers ($180 to $200) that support both the crowded 2.4-GHz frequency range (used by all of the less-Expensive models and their 802.11b/g predecessors) and the relatively open 5-GHz band, with support for legacy 802.11a gear. These top-of-the-line units target users preparing for an expected influx of networked multimedia devices that need uncluttered bandwidth to stream media. (The 802.11n spec supports both frequencies.) Up to now, vendors have been focusing on the 2.4-GHz band in order to support the vast majority of legacy devices.

For a point-by-point comparison of the six routers we examined, see our chart, "Wi-Fi Draft-2.0 802.11N Routers: Good, Better, and Best."

Deconstructing the Technology

The 802.11n variant of Wi-Fi achieves its high through??put (typically four times that of 802.11g) in two ways. First, it uses MIMO (multiple input, multiple output) antenna technology to transmit more data at a time. Intelligent antennas combine streams of data arriving at different times from multi??path signals bouncing off walls, floors, and ceilings. Entry-level routers typically have two receiving and transmitting antennas; midrange and high-end models have three of each.

Second, draft-n uses channel bonding: Instead of the 20-MHz-wide channels found in previous Wi-Fi standards, 802.11n can use 40-MHz-wide channels, which in theory should double their data-carrying capacity.

Unfortunately, the limited bandwidth of the 2.4-GHz range means that just one 802.11n router using channel bonding will take up virtually the entire 2.4-GHz spectrum, leaving no room for neighboring routers, and causing severe interference. For this reason, draft-2.0's so-called good-neighbor policies require that routers ship in 20-MHz mode, and that, when in 40-MHz mode, they drop to 20-MHz operation if they sense nearby Wi-Fi nets or other 2.4-GHz devices. The top link rate in 20-MHz mode is only 150 mbps (rather than the much-advertised 300 mbps); since many users are likely to be within range of other 2.4-GHz traffic, we ran our 2.4-GHz tests with 20-MHz channels.

More Bandwidth, Less Range

The 5-GHz frequency range, however, has much more bandwidth to play with and can support multiple 40-MHz channels. It's also relatively unused (802.11a products appeared primarily in business environments), so interference is generally minimal to none. We therefore used 40-MHz channels in our 5-GHz testing of the two routers that support 5-GHz operations.

Interestingly, even with twice as much channel bandwidth, speeds in our 5-GHz testing at close range did not double; on average, they rose about 20 percent. But they were generally more consistent than the 2.4-GHz results, and throughput at close range never dropped below 40 mbps--well above the 25 mbps needed for top-quality HDTV streaming.

The downside to 5-GHz: Its higher frequency doesn't allow it to cover as large an area as 2.4-GHz draft-n. But its range is still generally far better than that of standard unenhanced 802.11g.

Another 5-GHz plus: While draft-n is backward-compatible with 802.11b and g gear in "mixed" 2.4-GHz mode, performance for n clients drops significantly on networks when b or g clients are present. But with a dual-band router, you can put newer draft-n gear that supports 5 GHz on the fast track while maintaining a slower 2.4-GHz network for older gear. We recommend a dual-band router if you need maximum performance for streaming media or networked storage--or if you can't get a good Wi-Fi signal at all due to interference from neighbors' networks.

source : http://www.pcworld.com

The Best Wi-Fi : New 802.11n Routers:

What a difference a couple of years makes. In our first roundup of draft-802.11n Wi-Fi routers (see "Wireless Routers: The Truth About Superfast Draft-N"), we found so many problems, we couldn't recommend any of them: Firmware was buggy, interoperability between vendors was hit-and-miss, and performance was not as good as that of some enhanced, earlier-generation 802.11g routers.

As of this year, we're happy to report, those issues have largely gone away. Although the standard is still technically in draft form and final ratification of 802.11n by the IEEE isn't expected until next year, the Wi-Fi Alliance has been certifying draft-2.0 n routers for interoperability and compatibility since last year, and the final version should largely be a formality that at most may require a firmware upgrade.

And the Wi-Fi certified products are worthy updates. With link rates--the nominal connection speeds, as opposed to real-world throughput--of up to 300 megabits per second (compared with 54 mbps for standard 802.11g) and extended range (thanks to multiple smart antennas), 802.11n Wi-Fi is the first Wi-Fi technology that can rival wired 100-mbps ethernet in performance. Upgrading your home router to 802.11n is thus one of the quickest and easiest ways to improve your network.

But choosing a particular 802.11n router has become more complicated than ever because the standard covers a lot of ground that lets vendors issue a dizzying array of product options, with literally dozens of models ranging in price from $50 to $250. D-Link alone has six 802.11n routers.

To give an idea of the options, we chose two widely available models in each of three categories: under-$90 routers for people who don't need maximum performance, but who can nonetheless benefit from 802.11n's improved range and speed; midrange (about $150) models that offer top wireless speeds and gigabit ethernet; and dual-band routers ($180 to $200) that support both the crowded 2.4-GHz frequency range (used by all of the less-Expensive models and their 802.11b/g predecessors) and the relatively open 5-GHz band, with support for legacy 802.11a gear. These top-of-the-line units target users preparing for an expected influx of networked multimedia devices that need uncluttered bandwidth to stream media. (The 802.11n spec supports both frequencies.) Up to now, vendors have been focusing on the 2.4-GHz band in order to support the vast majority of legacy devices.

For a point-by-point comparison of the six routers we examined, see our chart, "Wi-Fi Draft-2.0 802.11N Routers: Good, Better, and Best."

Deconstructing the Technology

The 802.11n variant of Wi-Fi achieves its high through??put (typically four times that of 802.11g) in two ways. First, it uses MIMO (multiple input, multiple output) antenna technology to transmit more data at a time. Intelligent antennas combine streams of data arriving at different times from multi??path signals bouncing off walls, floors, and ceilings. Entry-level routers typically have two receiving and transmitting antennas; midrange and high-end models have three of each.

Second, draft-n uses channel bonding: Instead of the 20-MHz-wide channels found in previous Wi-Fi standards, 802.11n can use 40-MHz-wide channels, which in theory should double their data-carrying capacity.

Unfortunately, the limited bandwidth of the 2.4-GHz range means that just one 802.11n router using channel bonding will take up virtually the entire 2.4-GHz spectrum, leaving no room for neighboring routers, and causing severe interference. For this reason, draft-2.0's so-called good-neighbor policies require that routers ship in 20-MHz mode, and that, when in 40-MHz mode, they drop to 20-MHz operation if they sense nearby Wi-Fi nets or other 2.4-GHz devices. The top link rate in 20-MHz mode is only 150 mbps (rather than the much-advertised 300 mbps); since many users are likely to be within range of other 2.4-GHz traffic, we ran our 2.4-GHz tests with 20-MHz channels.

More Bandwidth, Less Range

The 5-GHz frequency range, however, has much more bandwidth to play with and can support multiple 40-MHz channels. It's also relatively unused (802.11a products appeared primarily in business environments), so interference is generally minimal to none. We therefore used 40-MHz channels in our 5-GHz testing of the two routers that support 5-GHz operations.

Interestingly, even with twice as much channel bandwidth, speeds in our 5-GHz testing at close range did not double; on average, they rose about 20 percent. But they were generally more consistent than the 2.4-GHz results, and throughput at close range never dropped below 40 mbps--well above the 25 mbps needed for top-quality HDTV streaming.

The downside to 5-GHz: Its higher frequency doesn't allow it to cover as large an area as 2.4-GHz draft-n. But its range is still generally far better than that of standard unenhanced 802.11g.

Another 5-GHz plus: While draft-n is backward-compatible with 802.11b and g gear in "mixed" 2.4-GHz mode, performance for n clients drops significantly on networks when b or g clients are present. But with a dual-band router, you can put newer draft-n gear that supports 5 GHz on the fast track while maintaining a slower 2.4-GHz network for older gear. We recommend a dual-band router if you need maximum performance for streaming media or networked storage--or if you can't get a good Wi-Fi signal at all due to interference from neighbors' networks.

source : http://www.pcworld.com

Cheap Wireless Routers - The Internet is Now Easily Accessible

Cheap wireless routers are ideal for quickly and simply accessing the internet as well as using file sharing programs. Most Americans utilize the internet to chat online with friends, check their email inbox, and browse news feeds and online stores; all Americans can benefit from the performance provided by cheap wireless routers. These types of routers are relatively easy to install and completely foolproof. If you purchase a cheap router and are having difficulty setting it up and following the written directions, you can speak directly to a customer representative from your ISP, or Internet Service Provider, who will provide the help you need. Basic wireless routers come standard with all firewall and modem components necessary for establishing a safe, secure connection to the online world.

What You Will Sacrifice When Buying a Cheap Router

Today's sophisticated consumers tend to avoid any product with a price far below a competitive value, especially when it comes to electronic equipment. One of the best aspects of wireless products is that their level of progression has created an industry-wide standard, causing all inexpensive wireless router companies to provide quality performance. A few wireless manufacturers have taken the time to study a router's most basic services in order to provide the public with budget-friendly routers, sans high-dollar features, that everyone can appreciate.

The most distinctive aspect of any router is its data transfer speed. Usually, inexpensive wireless router models can handle a speed maximum of 56mbps while a more pricey model allows for a maximum of 300mbps, which is almost six times the difference. However, the speed differences are only noticeable when streaming video feeds or transferring and downloading big files. Cheaper wireless routers may sometimes cause the user to experience minor sluggishness when viewing a new web page.

What You Will Gain by Using a Cheap Router

You should always experiment with your new inexpensive wireless router in order to discover for yourself its many benefits. For instance, if you have a strong Wi-Fi signal in your house, you can take your laptop outside and almost anywhere else on your property without having to fool with aggravating cables. A wireless internet connection allows users to share their internet connection with laptop carrying friends who stop by to visit. And these devices also permit more than one wireless user to work from a single internet connection at the same time instead of the one-at-a-time process provided by dial-up internet providers.

When it comes to low cost, simple ways to acquire internet access, cheap wireless routers reign supreme. If you do enough research, you may possibly locate an ISP that provides their customers with a router to rent in order to establish an internet connection; these rentals usually run no more than five dollars per month. Most wireless users feel that cheap routers have a minuscule financial risk and allow them to experience the web while deciding if a wireless computer network is the best decision. Once you gain a greater understanding in regards to computer networks and wireless internet connections, you will have a good idea of whether or not it is time to upgrade your router.

For more great information and resources on a cable modem wireless router and a cheap wireless router visit our site today.

Article Source: http://EzineArticles.com/?expert=David_Patullo

The Fastest of Wi-Fi Device

According to the news I can on the internet modem is the fastest in the world today is Bluelink R33N and Wi-Fi USB U93N, which also got an award from the Indonesian Record Museum (MURI), and 86Mbps data transfer speed. At the time of testing, in Bandung Electronic Center (BEC), told Antara News, the product was tested with similar products from other brands available in Indonesia, such as artificial United States, Taiwan, and China. Wi-Fi router N series Bluelink (BL-R33N) are marketed at a price per unit ranged US $ 50 and Wi-Fi USB receiver (BL-R33N) sold price range US $ 30 per unit.
Based on test results proved the speed wi-fi Bluelink reach 86 Mbps, while other brands range from 20 Mbps - 60Mbps. Diterimakan award on February 5, 2010 in front of the visitors BEC. You can choose Wi-Fi according to your financial standards. If it had a lot of money please select the fastest and best