One of the world's most popular network technologies, Wi-Fi
connections support millions of people in homes, businesses, and public locations around the world. But how many people know even these basic facts about how Wi-Fi works?
Wireless Broadband Routers Are Also Wi-Fi Access Points
An access point (AP)
is a type of wireless hub useful for coordinating the network traffic of multiple clients. One reason why wireless broadband routers
make home networks much easier to build, is that they function as Wi-Fi access points. Home routers perform other useful functions, too, such as running a network firewall
Wi-Fi Connections Do Not Require an Access Point
Some people think they need to find a router, a public hotspot
, or other kind of access point in order to set up Wi-Fi connections. Not true! Wi-Fi also supports a connection type called ad hoc mode
that allows devices to network in peer-to-peer
fashion. More - How To Set Up an Ad Hoc Wi-Fi Network
Some Types of Wi-Fi Are Incompatible With Each Other
Some believe that any Wi-Fi system can network with any other Wi-Fi system as long as all their security settings match. While it's true that 802.11n
Wi-Fi standard equipment can all network together, the alternative 802.11a
standard does not support cross-compatibility with any of these others. Special Wi-Fi access points that support both 802.11a and 802.11b (or higher) radios must be used to bridge the two. Other compatibility issues also can arise between Wi-Fi products from different vendors if both build their Wi-Fi equipment using non-standard proprietary extensions. Fortunately, compatibility limitations like these are not often found in practice nowadays.
How old is Wi-Fi? Industry vendors created the first version of Wi-Fi (802.11
) back in 1997. The market for consumer products exploded starting in 1999 when both 802.11a and 802.11b became official standards.
Wi-Fi Connection Speed Varies With Distance
When you join a Wi-Fi network and the access point is nearby, your device will typically connect at its maximum rated speed (e.g., 54 Mbps
for most 802.11g connections). Gradually move away from the AP, though, and eventually your reported connection speed will drop to 27 Mbps, 18 Mbps, and lower. A cleverly-designed feature of Wi-Fi called dynamic rate scaling
causes this phenomenon. Wi-Fi maintains a reliable connection over longer distances when it transfers data slower, by avoiding flooding the wireless connection with data and subsequent retry requests that happen when one network client starts to fall behind on processing its messages.
A Wi-Fi Network Can Span Many Miles (Kilometers), Or Just a Few Yards (Meters)
The typical range of a Wi-Fi network
varies depending on the type of obstructions the radio signals encounter between connection endpoints. While 100 feet (30m) or more of range is typical, a Wi-Fi signal may fail to reach even half that distance if heavy obstructions exist on the radio signals' path. Using special Wi-Fi range extender
devices, an administrator can extend the reach of their network to overcome these obstructions and expand its range manyfold in other directions. A few Wi-Fi networks spanning 125 miles (275 km)
and more have even been created by network enthusiasts over the years.
Wi-Fi Is Not the Only Form of Wireless Networking
News articles and social sites sometimes refer to any kind of wireless network as "Wi-Fi." While Wi-Fi is extremely popular, other forms of wireless technology are in widespread use also. Smartphones, for example, commonly use a combination of Wi-Fi together with cellular Internet services based on LTE
or older "3G" systems. Bluetooth
wireless remains a popular way to connect phones and other mobile devices each other (or to peripherals like headsets) over shorter distances. Home automation systems employ different kinds of short-range wireless radio communications such as Insteon