 |
 |
| More about Lisa | |
| |
Upgraded antennas can improve WLAN performance, reach and security. As explained in the first part of this tip, dipole antennas included with 802.11 products radiate signal 360 degrees around the antenna's axis. After-market antennas focus transmission more narrowly, boosting power where you need it by decreasing signal where you don't.
Figure 1
| |
 |
|
| |
| |
Directional antennas focus signal in both planes. Patch antennas are flat directional antennas, mounted flush on walls or ceilings. They produce hemispherical coverage, spreading away from the mount point (Figure 2) at a width of 30 to 180 degrees. Concentrating signal on this smaller area further increases range. For example, Cisco's 8.5 dBi Patch has a 60H/60V beam with indoor range up to 700 feet. HyperGain's 14 dBi Patch has a narrower 30H/30V beam.
Figure 2
| |
 |
|
| |
| |
Yagis are higher-gain directional antennas. These cylinders contain a boom supporting thin vertical rods. Signal propagates off the front of the boom somewhat like blown bubble gum (Figure 3). Note that some signal (back lobes) fall behind the boom. Yagis create higher gain by producing narrower beams (20-80H, 14-64V). Examples include HyperGain's 14 dBi Yagi (30H/30V) and Cisco's 13.5 dBi Yagi (30H/25V, outdoor range up to 6.5 miles.)
Figure 3
| |
 |
|
| |
| |
Parabolic dish or grid antennas are concave panels or bowls that produce an extremely narrow beam (4-25 degrees horizontal/vertical), like a rocket with exhaust spreading from the base (Figure 4). Examples include HyperGain's 24 dBi Grid (8H/V) and Cisco's 21dBi Dish (12.4H/V, outdoor range up to 25 miles.)
Figure 4
| |
 |
|
| |
| |
Standard-equipment Dipoles are ok in densely-populated office floors, including cubicle bullpens where stations are centered around the AP. But dipoles waste (leak) signal when the AP is located near an outside wall or corner or when you need to cover just one floor.
After-market Omnis are better for high-ceiling industrial and retail environments – factory floors, warehouses, or "big box" stores where antennas can be suspended from the ceiling at the center of large open areas. But Omnis are not good in long, narrow workspaces where antennas cannot be centrally located.
Patch antennas are better for covering single-floor small offices, small stores, and other indoor locations where APs cannot be placed centrally. For example, mount patch antennas unobtrusively on the back wall of a store. Back lobes do create some leakage, but far less than an omni-directional antenna would in the same situation.
Yagi antennas are better for corridors, hallways, tunnels, long narrow building, and point-to-point medium range connections between outdoor bridges (for example, connecting two buildings in an office park or campus). Be wary of back lobes, but the Yagi's narrow beam will reduce unwanted peripheral exposure in the focal direction.
Parabolic antennas are better for long-range outdoor point-to-point connections – for example bridges that are miles apart. They require more precise installation to aim signal where you want it, but have the very high gain necessary to reach such distances.
Understanding wireless antennas - part 1 is available here:http://searchnetworking.techtarget.com/tip/1,289483,sid7_gci884306,00.html
Do you have comments about this article, or suggestions for Lisa to write about in future columns? Let us know!
相关内容
