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66
WLAN Standards
WLAN base stations. Each client can then automatically
register at the WLAN base station with the best availabil-
ity.
Each IP address may be assigned only once in the wire-
less network.
11.5
WLAN Standards
The Institute of Electrical and Electronic Engineers (IEEE) de-
fined the WLAN standards IEEE 802.11b, IEEE 802.11g,
IEEE 802.11n and IEEE 802.11i.
The IEEE 802.11b, IEEE 802.11g and IEEE 802.11n standards
define the throughput rate within a wireless radio network.
IEEE 802.11i is a security standard.
Standards for the Throughput Rate
Data Throughput
The throughputs listed differentiate between gross and net
transmission rates. The net speed describes the transmission
rate of the user data.
The FRITZ!Box supports your choice of the standards
IEEE 802.11b, IEEE 802.11g and IEEE 802.11n. WLAN devices
based on one or more of the standards listed can be used for
WLAN connections with the FRITZ!Box.
IEEE 802.11b
With a maximum throughput rate of 11 Mbit/s, this is the old-
est WLAN standard. Older WLAN devices of the first genera-
tion can communicate with the FRITZ!Box using 802.11b.
However, if the WLAN device supports newer standards such
as 802.11g, the latest standard should be used.
Standard
Frequency Band
Gross Data Throughput up
to
Net Data Throughput up to
802.11b
2.4 GHz
11 Mbit/s
5 Mbit/s
802.11g
2.4 GHz
54 Mbit/s
25 Mbit/s
802.11n
2.4 GHz
300 Mbit/s
150 Mbit/s
Page 67 / 180
WLAN Standards
67
IEEE 802.11g
This is currently the most common WLAN standard. It commu-
nicates with a maximum of 54 Mbit/s gross in the 2.4-GHz
frequency range (ISM) and guarantees broad compatibility
with many WLAN devices.
IEEE 802.11n
This standard allows for high throughput rates and ranges.
The FRITZ!Box supports 802.11n in the 2.4-GHz frequency
band. Modulation processes and antenna techniques like MI-
MO (Multiple Input, Multiple Output) use the frequency band
more effectively than the older standards.
Thanks to compatibility with the 802.11g standard, you can
also continue to use older WLAN devices.
Setting the Right Standard in the FRITZ!Box
The throughput rate that can be achieved in your WLAN radio
network depends on the WLAN standards used by the inte-
grated WLAN devices. These WLAN standards must also be
set in the FRITZ!Box. Proceed as follows to check which WLAN
standards are set and change them if needed:
1.
Open the FRITZ!Box user interface.
2.
Make sure that the expert mode is enabled in the “Sys-
tem / Expert Mode” menu.
3.
Open the “WLAN / Radio Channel” menu and select “Ad-
just radio channel settings” to make the desired chang-
es.
Make a note of which standards the WLAN devices in your
network are compatible with and then adjust the FRITZ!Box
settings according to the following information:
The use of the 802.11n standard—and thus the availability
of higher throughput rates—is possible only if the WLAN con-
nection is secured using the WPA2 security mechanism (AES-
CCMP).
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68
WLAN Standards
Your radio network integrates only WLAN devices that
are compatible with one or both of the following stan-
dards:
802.11n
802.11g
Set the following mode in the FRITZ!Box:
Mode: 802.11n+g
The 2.4-GHz frequency band will be used.
Your radio network integrates only WLAN devices that
are compatible with one or both of the following stan-
dards:
802.11b
802.11g
Set the following mode in the FRITZ!Box:
Mode: 802.11b+g
The 2.4-GHz frequency band will be used.
Your radio network integrates only WLAN devices that
are compatible with one or several of the following stan-
dards:
802.11n
802.11g
802.11b
Set the following mode in the FRITZ!Box:
Mode: 802.11n+g+b
The 2.4-GHz frequency band will be used.
Page 69 / 180
Frequency Ranges
69
The Standard for Security
IEEE 802.11i
The WPA2 security mechanism is defined in the IEEE 802.11i
standard. WPA2 is an extension of the familiar security mech-
anism WPA (Wi-Fi Protected Access).
The main feature of the extension of WPA to WPA2 is the AES-
CCMP encryption process.
FRITZ!Box supports the AES encryption procedure as part of
the WPA2 mechanism, and the TKIP encryption procedure as
part of the WPA mechanism. This means that the FRITZ!Box
can be used in combination with any WLAN devices that also
support WPA2 with AES or WPA with TKIP.
11.6
Frequency Ranges
WLAN uses the frequency ranges at 2.4 GHz and 5 GHz as its
transmission range.
With the FRITZ!Box you can establish WLAN connections in
the 2.4-GHz range.
2.4-GHz Frequency Band
In the 2.4-GHz frequency band WLAN works in the same range
as Bluetooth, microwave devices and various other devices
like radio-controlled toys, garage-door openers and video
bridges. This means that interference may occur within
WLANs operated in the vicinity of such devices. Generally this
has adverse effects on the transmission rate, including abort-
ed connections.
Mechanism
Encryption
WPA
TKIP (Temporary Key Integrity Protocol)
WPA2
TKIP
AES-CCMP
based on the extremely secure AES (Advanced
Encryption Standard) procedure. CCMP (Coun-
ter Mode with CBC-MAC Protocol) defines how
the AES procedure is applied to WLAN packets.
Page 70 / 180
70
Frequency Ranges
In the 2.4-GHz frequency range the European regulation au-
thorities have designated 13 channels for WLAN. A channel
can have a bandwidth of 20 MHz (throughput up to
130 Mbit/s) or 40 MHz (throughput of up to 300 Mbit/s).
Channels located directly next to each other in the 2.4-GHz
band may overlap and result in mutual interference. For in-
stance, if several WLANs are operated close to each other in
the 2.4-GHz frequency range with a bandwidth of 20 MHz, a
distance of at least five channels should be left empty be-
tween each two channels used. This means that if channel 1
is selected for one WLAN, the channels 6 through 13 can be
selected for a second WLAN. This maintains the minimum dis-
tance between channels.
Should interference in a WLAN persist, the first step should
be to select a different channel.
WLAN Autochannel
With the WLAN autochannel function, the FRITZ!Box automati-
cally searches for the channel subject to the least interfer-
ence. This process takes into consideration interference from
radio networks in the vicinity (WLAN base stations) and po-
tential sources of interference (for instance video bridges, ba-
by monitors, microwave ovens). Should problems with inter-
ference persist despite this function, try to identify the source
of interference and switch it off manually.
Additional tips on interference in the WLAN radio network are
presented in the section
Ruling Out Interference Caused by
Other Wireless Networks from page 127
.
Allocation of the WLAN Channels in the 2.4-GHz Range
Channel
Frequency (GHz)
Channel
Frequency (GHz)
1
2.412
8
2.447
2
2.417
9
2.452
3
2.422
10
2.457
4
2.427
11
2.462
5
2.432
12
2.467
6
2.437
13
2.472
7
2.442

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