Chapter 2 The AP340 Platform
28
Aerohive
Figure 8 Antennas and radios
\
The wifi0 interface links to radio 1 (frequency range = 2.4 GHz for IEEE 802.11b/g), and the wifi1 interface links
to radio 2 (frequency range = 5 GHz for IEEE 802.11a). These interface-to-radio relationships are permanent.
When deciding how many antennas to use, consider the types of wireless clients—802.11n only, 802.11g/n,
802.11b/g/n, or 802.11a/n—the area needing coverage, and the RF environment.
Using MIMO with Legacy Clients
In addition to supporting up to 300-Mbps throughput per radio for 802.11n clients, MIMO (Multiple In, Multiple
Out) can improve the reliability and speed of legacy 802.11a/b/g client traffic. When an 802.11a/b/g access point
does not receive acknowledgement that a frame it sent was received, it resends that frame, possibly at a
somewhat lower transmission rate. If the access point must continue resending frames, it will continue
lowering its transmission rate. As a result, clients that could get 54-Mbps throughput in an interference-free
environment might have to drop to 48- or 36-Mbps speeds due to multipath interface. However, because MIMO
technology makes better use of multipath, an access point using MIMO can continue transmitting at 54 Mbps, or
at least at a better rate than it would in a pure 802.11a/b/g environment, thus improving the reliability and speed
of 802.11a/b/g client traffic.
Although 802.11a/b/g client traffic can benefit somewhat from an 802.11n access point using MIMO, supporting
such legacy clients along with 802.11n clients can have a negative impact on 802.11n client traffic. Legacy
clients take longer to send the same amount of data as 802.11n clients. Consequently, legacy clients consume
more airtime than 802.11n clients do, causing greater congestion in the WLAN and reducing 802.11n
performance.
By default, the AP340 supports 802.11a/b/g clients. You can restrict access only to clients using the IEEE
802.11n standard. By only allowing traffic from clients using 802.11n, you can increase the overall bandwidth
capacity of the access point so that there will not be an impact on 802.11n clients during times of network
congestion. To do that, enter the following command:
radio profile <string> 11n-clients-only
You can also deny access just to clients using the IEEE 802.11b standard, which has the slowest data rates of
the three legacy standards, while continuing to support 802.11a and 802.11g clients. To do that, enter the
following command:
no radio profile <string> allow-11b-clients
By blocking access to 802.11b clients, their slower data rates cannot clog the WLAN when the amount of
wireless traffic increases.
PWR
ETH1
ETH0
WIFI1
WIFI0
Radio 1
RF 802.11b/g/n
2.4 GHz
Radio 2
RF 802.11a/n
5 GHz
2.4 GHz (A)
2.4 GHz (B)
2.4 GHz (C)
5 GHz (A)
5 GHz (B)
5 GHz (C)
RP-SMA
connectors
RP-SMA
connectors
Cut-away view of the AP340 to show the relationship of the
antennas and the two internal radios
Summary of Contents for Aerohive APs
Page 1: ...Aerohive Hardware Reference Guide ...
Page 7: ...Contents 6 Aerohive ...
Page 17: ...Chapter 1 The AP330 and AP350 Platforms 16 Aerohive ...
Page 47: ...Chapter 3 The AP320 Platform 46 Aerohive ...
Page 61: ...Chapter 4 The AP170 Platform 60 Aerohive ...
Page 91: ...Chapter 8 The High Capacity HiveManager 90 Aerohive ...