Lancom L-305agn Wireless manual

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LANCOM Systems GmbH
LANCOM L-305agn Wireless LANCOM L-310agn Wireless
LANCOM L-315agn dual Wireless
Adenauerstr. 20/B2
52146 Würselen
Germany
E-Mail: [email protected]
Internet www.lancom.eu
. . . c o n n e c t i n g
y o u r
b u s i n e s s
LANCOM L-305agn Wireless
LANCOM L-310agn Wireless
LANCOM L-315agn dual Wireless
쮿
110632/1108
쮿
Handbuch
Manual
110632_LC-L300-MANUAL_cover.indd1 1
07.11.2008 09:24:11
LANCOM L-305agn Wireless
LANCOM L-310agn Wireless
LANCOM L-315agn dual Wireless
© 2008 LANCOM Systems GmbH, Wuerselen (Germany). All rights reserved.
While the information in this manual has been compiled with great care, it may not be deemed an assurance of product
characteristics. LANCOM Systems shall be liable only to the degree specified in the terms of sale and delivery.
The reproduction and distribution of the documentation and software included with this product is subject to written permission by LANCOM Systems. We reserve the right to make any alterations that arise as the result of technical development.
All explanations and documents for registration of the products you find in the appendix of this documentation, if they
were present at the time of printing.
Trademarks
Windows®, Windows Vista™, Windows XP® and Microsoft® are registered trademarks of Microsoft, Corp.
The LANCOM Systems logo, LCOS and the name LANCOM are registered trademarks of LANCOM Systems GmbH. All other
names mentioned may be trademarks or registered trademarks of their respective owners.
This product includes software developed by the OpenSSL Project for use in the OpenSSL Toolkit http://www.openssl.org/.
This product includes cryptographic software written by Eric Young ([email protected]).
This product includes software developed by the NetBSD Foundation, Inc. and its contributors.
This product includes the LZMA SDK written by Igor Pavlov.
Subject to change without notice. No liability for technical errors or omissions.
LANCOM Systems GmbH
Adenauerstr. 20/B2
52146 Wuerselen
Germany
www.lancom.eu
Wuerselen, November 2008
110632/1108
LANCOM L-300 Access Point Serie
Preface
Preface
LANCOM L-305agn Wireless, LANCOM L-310agn Wireless and LANCOM
L-315agn dual Wireless are professional access points that provide a maximum wireless LAN performance of up to 300 Mbps thanks to the support of
the IEEE 802.11n draft 2.0 standard. The access points operate either in the
2.4 GHz or in the 5 GHz frequency band. LANCOM L-315agn dual Wireless
works with two integrated radio modules (one IEEE 802.11abgn, one IEEE
802.11abg), both of which can operate simultaneously in the 2.4- and/or
5 GHz frequency range. The 5 GHz band is not used as much and, offering a
larger number of channels, it provides better opportunities to establish
non-overlapping wireless cells. The L-300 Access Point series models can operate in stand-alone mode, in managed mode or in client mode. The access
point can be used in managed mode with a LANCOM WLAN Controller without any additional software upgrades.
The 802.11n Draft 2.0 standard includes many new mechanisms—such as
the use of MIMO, 40-MHz channels, packet aggregation and block acknowledgement—in order to increase the bandwidth available for user applications significantly. This allows a more than fivefold increase in speed over
802.11a/g networks with physical data rates of up to 300 Mbps.
MIMO (multiple input multiple output) technology allows the L-300 Access
Point to transfer several data streams in parallel and thus significantly improve
data throughput. MIMO uses several transmit/receive units for both the transmitter and the receiver. The separate data streams are identified by unique
characteristics that result from the different paths that the data take. By processing multiple data streams MIMO achieves not just higher data throughput
but also better coverage (fewer "radio black spots") and better stability. These
are the most important arguments for 802.11n for commercial customers in
particular.
Model variants
This documentation is intended for L-300 Access Point users. The following
models are available:
The LANCOM L-305agn Wireless with integrated MIMO antenna array.
The LANCOM L-310agn Wireless with three external antennas.
3
EN
Thank you for your confidence in us!
LANCOM L-300 Access Point Serie
Preface
The LANCOM L-315agn dual Wireless with two WLAN modules, four
external antennas and an additional internal antenna for MIMO operation.
Model
restrictions
Passages applying only to certain models are identified either in the text itself
or by a comment in the margin.
EN
Otherwise the documentation refers to all models collectively as the L-300
Access Point series.
Security settings
To maximize the security available from your product, we recommend that you
undertake all of the security settings (e.g. firewall, encryption, access protection) that were not already activated when you purchased the product. The
LANconfig Wizard 'Security Settings' will help you with this task. Further information is also available in the chapter 'Security settings'.
We would additionally like to ask you to refer to our Internet site www.lancom.eu for the latest information about your product and technical developments, and also to download our latest software versions.
User manual and reference manual
The documentation of your device consists of the following parts:
Installation guide
User manual
Reference manual
You are now reading the user manual. It also contains all of the important
technical specifications.
The reference manual can be found on the LANCOM product CD as an Acrobat
(PDF) document. It is designed as a supplement to the user manual and goes
into detail on topics that apply to a variety of models. These include, for
example:
4
The system design of the operating system LCOS
Configuration
Management
Diagnosis
Security
Routing and WAN functions
Firewall
LANCOM L-300 Access Point Serie
Preface
Quality of Service (QoS)
Virtual Local Networks (VLAN)
Wireless networks (WLAN)
Backup solutions
Further server services (DHCP, DNS, charge management)
... several members of our staff from a variety of departments in order to
ensure you the best possible support when using your LANCOM product.
In case you encounter any errors, or just want to issue critics enhancements,
please do not hesitate to send an email directly to:
[email protected]

Our online services www.lancom.eu are available to you around the
clock should you have any queries regarding the topics discussed in
this manual or require any further support. The area 'Support' will
help you with many answers to frequently asked questions (FAQs).
Furthermore, the knowledgebase offers you a large reserve of information. The latest drivers, firmware, utilities and documentation are
constantly available for download.
In addition, LANCOM support is available. For telephone numbers and
contact addresses of LANCOM support, please see the enclosed leaflet or the LANCOM Systems website.
Information symbols



Very important instructions. Failure to observe this may result in damage.
Important instruction that should be observed.
Additional information that may be helpful but which is not required.
5
EN
This documentation was created by …
LANCOM L-300 Access Point Serie
Contents
Contents
1 Introduction
9
EN
1.1 What is a wireless LAN?
9
1.1.1 Modes of operation of wireless LANs and access points 9
1.2 Wireless LANs in accordance with 802.11n
1.2.1 Advantages of 802.11n
1.2.2 Compatibility with other standards
1.2.3 The physical layer
1.2.4 The MAC layer
10
10
11
11
18
1.3 What can your LANCOM do?
19
2 Installation
23
2.2 System requirements
2.2.1 Configuring the LANCOM devices
2.2.2 Operating access points in managed mode
23
23
24
2.3 Status displays and interfaces
2.3.1 Status displays
24
24
2.4 Software installation
2.4.1 Starting the software setup
2.4.2 Which software should I install?
33
33
34
3 Basic configuration
6
23
2.1 Package contents
35
3.1 What details are necessary?
3.1.1 TCP/IP settings
3.1.2 Configuration protection
3.1.3 Settings for the wireless LAN
36
36
38
38
3.2 Instructions for LANconfig
38
3.3 Instructions for WEBconfig
40
3.4 TCP/IP settings to workstation PCs
43
LANCOM L-300 Access Point Serie
Contents
45
4.1 Security in the wireless LAN
4.1.1 Suppress SSID broadcast – closed network
4.1.2 Access control by MAC address
4.1.3 LANCOM Enhanced Passphrase Security
4.1.4 Encrypted data transfer
4.1.5 802.1x / EAP
4.1.6 IPSec over WLAN
45
45
46
46
47
47
48
4.2 Tips for the proper treatment of keys and passphrases
48
4.3 The security settings wizard
4.3.1 Wizard for LANconfig
4.3.2 Wizard for WEBconfig
48
49
50
4.4 The security checklist
50
5 Advanced wireless LAN configuration
55
5.1 WLAN configuration with the wizards in LANconfig
55
5.2 Special wireless LAN parameters for 802.11n
5.2.1 Compatibility
5.2.2 Performance settings for the wireless LAN module
5.2.3 Performance settings for wireless LAN networks
5.2.4 Configuring 802.11n parameters
57
57
57
58
60
5.3 Point-to-point connections
61
5.3.1 Geometric dimensioning of outdoor wireless network
links
64
5.3.2 Antenna alignment for P2P operations
68
5.4 Measuring wireless bridges
5.4.1 Configuration of P2P connections
5.4.2 Security for point-to-point connections
70
70
73
5.5 Client mode
5.5.1 Client settings
5.5.2 Set the SSID of the available networks
5.5.3 Encryption settings
75
76
77
78
7
EN
4 Security settings
LANCOM L-300 Access Point Serie
Contents
6 Setting up Internet access
80
81
81
82
6.2 The Firewall Wizard
6.2.1 LANconfig Wizard
6.2.2 Configuration under WEBconfig
82
82
83
EN
6.1 The Internet Connection Wizard
6.1.1 Instructions for LANconfig
6.1.2 Instructions for WEBconfig
7 Options and accessories
84
7.1 Optional AirLancer Extender antennas
7.1.1 Antenna diversity
7.1.2 Installing the AirLancer Extender antennas
84
84
85
7.2 LANCOM Public Spot Option
87
8 Troubleshooting
89
8.1 No DSL connection is established
89
8.2 DSL data transfer is slow
89
8.3 Unwanted connections under Windows XP
90
9 Appendix
9.1 Performance and characteristics
91
91
9.2 Contact assignment
93
9.2.1 Ethernet interface 10/100Base-TX
93
9.2.2 LAN/WAN interface 10/100/1000Base-TX, DSL interface
93
9.2.3 Configuration interface (Outband)
94
9.3 Declaration of conformity
94
9.4
94
10 Index
8
95
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
1 Introduction
What is a wireless LAN?

The following sections describe the functionality of wireless networks
in general. You can see from the table 'What your LANCOM can do'
further below which functions your device supports. Please refer to
the reference manual for further information on this topic.
A wireless LAN connects individual end-user devices (PCs and mobile computers) to form a local network (also called – Local Area Network). In contrast
to a traditional LAN, communication takes place over a wireless connection
and not over network cables. For this reason it is called a Wireless Local Area
Network (WLAN).
A wireless LAN provides the same functionality as a cable-based network:
Access to files, servers, printers etc. as well as the integration of individual
work stations into a corporate mail system or access to the Internet.
There are obvious advantages to wireless LANs: Notebooks and PCs can be
installed where they are needed—problems with missing connections or
structural changes are a thing of the past with wireless networks.
Apart from that, wireless LANs can also be used for connections over longer
distances. Expensive leased lines and the associated construction measures
can be saved.

1.1.1
LANCOM Wireless Routers and LANCOM Access Points can be operated either as self-sufficient Access Points with their own configuration
(WLAN modules in "Access Point mode“) or as components in a WLAN
infrastructure, which is controlled from a central WLAN-Controller
("managed mode"). Please observe the corresponding notices to this
in this documentation.
Modes of operation of wireless LANs and access points
Wireless LAN technology and access points in wireless LANs are used in the
following modes of operation:
Simple, direct connection between terminal devices with an access point
(ad-hoc mode)
Extensive wireless LANs, possibly connected to a LAN, with one or more
access points (infrastructure network)
9
EN
1.1
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
EN
Establishing access to the Internet
Connecting two LANs over a wireless link (point-to-point mode)
Connecting devices with an Ethernet interface via an access point (client
mode)
Extending an existing Ethernet network with a wireless LAN (bridge mode)
WDS (Wireless Distribution Systems)
Central administration using a LANCOM WLAN Controller
1.2
Wireless LANs in accordance with 802.11n
The new wireless LAN standard 802.11n features a number of technical developments that provide up to five-times the performance in wireless LANs. The
changes have not yet been officially approved by the IEEE, but the foreseeable
technological leap is so enticing that the industry is already bringing updated
WLAN devices to market before the standards have been adopted. Current
discussions are embodied by what is known as "draft 2.0", which is the basis
for devices currently available on the market.

Any reference to "802.11n" in this document always implies the current draft 2.0, which is not a standard adopted by the IEEE.
Some of the improvements refer to the physical layer (PHY), which describes
the transmission of individual bits over the physical medium—in this case the
air represents the physical medium. Other additions are concerned with the
MAC (medium access control) that among other things governs access to the
transmission medium. The two areas are treated separately below.

1.2.1
You can find additional information on this subject in the LCOS reference manual or in the technical papers relating to this topic.
Advantages of 802.11n
The new technology includes the following advantages:
Higher effective data throughput
802.11n draft 2.0 includes a number of new mechanisms to significantly
increase available bandwidth. Current wireless LAN standards based on
802.11a/g enable physical data rates (gross data rates) of up to 54 Mbps,
which turn out to be approx. 22 Mbps net. Networks based on 802.11n
currently achieve a gross data throughput of up to 300 Mbps (in reality
approx. 120 to 130 Mbps net) – theoretically the standard defines up to
10
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
600 Mbps with four data streams. For the first time, maximum speeds
exceed the 100 Mbps of cable-based Fast Ethernet networks, which are
currently standard in most workplaces.
This results in better signal coverage and improved stability for significantly better utilization of wireless networks, in particular for users in professional environments.
Greater range
Data throughput generally decreases when the distance between receiver
and transmitter increases. The overall improved data throughput allows
wireless LANs based on 802.11n to achieve greater ranges, as a significantly stronger wireless signal is received by the Access Point over a given
distance than in 802.11a/b/g networks.
1.2.2
Compatibility with other standards
The 802.11n standard is backwardly compatible to previous standards
(IEEE 802.11a/b/g). However, some of the advantages of the new technology
are only available when, in addition to the access points, the wireless LAN clients are also compatible with 802.11n.
In order to allow the co-existence of wireless LAN clients based on
802.11a/b/g (called "legacy clients") 802.11n access points offer special
mechanisms for mixed operation, where performance increases over
802.11a/b/g are not as high. Only in all-802.11n environments is the "greenfield mode" used, which can exploit all the advantages of the new technology.
In greenfield mode both access points and wireless LAN clients support the
802.11n Draft, and access points reject connections with legacy clients.
1.2.3
The physical layer
The physical layers describes how data must be transformed in order for them
to be transmitted as individual bits over the physical medium. In this process
the following steps are performed in a wireless LAN device:
Modulation of digital data into analog carrier signals
11
EN
Improved and more reliable wireless coverage
The new 802.11n technologies do not just increase date throughput but
bring about improvements in the range and reduce the wireless dead
spots in existing a/b/g installations.
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
Modulation of the carrier signal into a radio signal in the selected frequency band, which for a wireless LAN is either 2.4 or 5 GHz.
The second modulation step in IEEE 802.11n occurs in the same way as in
conventional wireless LAN standards and is therefore not covered here.
However, there are a number of changes in the way digital data are modulated into analog signals in 802.11n.
EN
Improved OFDM modulation (MIMO-OFDM)
Like 802.11a/g, 802.11n uses the OFDM scheme (Orthogonal Frequency Division Multiplex) as its method of modulation. This modulates the data signal
not on just one carrier signal but in parallel over several. The data throughput
that can be achieved with OFDM modulation depends on the following parameters, among other things:
Number of carrier signals: Whereas 802.11a/g uses 48 carrier signals,
802.11n can use a maximum of 52.
IEEE 802.11a/b/g: 48 carrier signals
20 MHz
IEEE 802.11n draft 2.0: 52 carrier signals
20 MHz
Payload data rate: Airborne data transmission is fundamentally unreliable. Even small glitches in the WLAN system can result in errors in data
transmission. Check sums are used to compensate for these errors, but
these take up a part of the available bandwidth. The payload data rate
indicates the ratio between theoretically available bandwidth and actual
payload. 802.11a/g can operate at payload rates of 1/2 or 3/4 while
802.11n can use up to 5/6 of the theoretically available bandwidth for
payload data.
12
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
Gross bandwidth
Payload rate for 802.11a/b/g: 1/2
Checksum
Payload data
EN
Payload rate for 802.11a/b/g: 3/4
Maximum payload rate for 802.11n: 5/6
These two features increase the maximum useable bandwidth of 54 Mbps for
802.11a/g to 65 Mbps for 802.11n. This increase is not exactly spectacular,
but it can be further improved by using the following features:
MIMO technology
MIMO (multiple input multiple output) is the most important new technology
contained in 802.11n. MIMO uses several transmitters and several receivers
to transmit up to four parallel data streams on the same transmission channel
(currently only two parallel data streams have been implemented). The result
is an increase in data throughput and improved wireless coverage.
MIMO AP 802.11n
MIMO Client 802.11n
For example, the Access Point splits the data into two groups which are then
sent simultaneously via separate antennas to the WLAN client. Data throughput can therefore be doubled using two transmitting and receiving antennas.
But how can several signals be transmitted on a single channel simultaneously? This was considered impossible with previous WLAN applications.
Let us consider how data is transmitted in "normal" wireless LAN networks:
Depending on antenna type, an Access Point's antenna broadcasts data in
several directions simultaneously. These electromagnetic waves are reflected
13
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
EN
by the surrounding surfaces causing a broadcast signal to reach the WLAN client's antenna over many different paths; this is also referred to as "multipath
propagation". Each of these paths has a different length meaning that individual signals reach the client with a different time delay.
ACCESS POINT
WLAN-Client
These time-delayed signals interfere with each other at the WLAN client and
significantly weaken the original signal. For this reason, conventional WLAN
networks should always have a direct line of sight (LOS) between transmitter
and receiver in order to reduce the influence of reflections.
MIMO technology transforms this weakness in WLAN transmission into a
strength that allows an enormous increase in data throughput. As mentioned
above, it is virtually impossible to transmit different signals on the same channel simultaneously as the receiver cannot distinguish between them. MIMO
uses the reflection of electromagnetic waves and the associated spatial aspect
to obtain a third criterion for identifying the signals.
A signal sent by transmitter A and received by receiver 1 follows a different
path than a signal from transmitter B to receiver 2. Due to the different reflections and changes in polarization that both signals experience along their
paths, each of these paths takes on its own characteristics. When data transmission starts, a training phases records the characteristics of the path by
transmitting standardized data. Subsequently, the data received here is used
to calculate which data stream the signals belong to. The receiver decides for
itself which of the incoming signals is to be processed, thus avoiding loss from
interference.
14
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
MIMO AP 802.11n
B
1
MIMO Client 802.11n
2
MIMO thus allows the simultaneous transmission of several signals over one
shared medium, such as the air. Individual transmitters and receivers must be
positioned a minimum distance apart from one another, although this is just
a few centimeters. This separation results in differing reflections and signal
paths that can be used to separate the signals.
Generally speaking, MIMO can provide up to four parallel data streams, which
are also called "spatial streams". However, the current generation of chips can
only implement two parallel data streams as the separation of data streams
based on characteristic path information demands high levels of computing
power, which consumes both time and electricity. The latter tends to be undesirable particularly for WLAN systems, where attempts are often made to
achieve independence from power sockets at the WLAN client or when using
PoE as the electricity supply for the Access Point.
Even if the aim of four spatial streams has not yet been achieved, the use of
two separate data connections results in a doubling of data throughput,
which represents a true technological leap in the area of WLAN systems. Combined with the improvements in OFDM modulation, the data throughput that
can be attained increases to 130 Mbps.
The short description "transmitter x receiver" expresses the actual number of
transmitting and receiving antennas. 3x3 MIMO describes three transmitting
and three receiving antennas. However, the number of antennas does not
equate with the number of data streams: the antennas available only limit the
maximum number of spatial streams. The reason for using more antennas
than strictly necessary for data stream transmission relates to the method of
allocating the signals according to their characteristic path: A third signal is
used to transmit additional spatial information. If the data from the first two
15
EN
A
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
signals cannot be uniquely identified, their computation can still be performed
with the aid of the third signal. The use of additional antennas does not contribute to an increase in data throughput, but it does result in a more even,
stronger coverage for clients.
MIMO in outdoor use
EN
Outdoor 802.11n applications cannot use natural reflections since signal
transmission usually takes place over the direct path between directional
antennas. In order to transmit two data streams in parallel, special antennas
are employed that use polarization channels turned through 90° to each
other. These so-called "dual-slant" antennas are really two antennas in one
housing. Since a third signal does not offer additional reliability, outdoor
applications generally use as many antennas (or polarization channels) as
there are data streams for transmission.
BUILDING
MIMO AP 802.11n
BUILDING
POLARIZATION
DIVERSITY
POLARISATION
DIVERSITY
MIMO AP 802.11n
40 MHz channels
As the above explanation of OFDM modulation states, data throughput rises
with an increasing number of carrier signals because this allows several signals to be transmitted simultaneously. If a channel with a bandwidth of
20 MHz supports no more than 48 (802.11a/g) or 52 (802.11n) carrier signals,
the obvious choice would be to use a second channel with additional carrier
signals.
This method was used in the past by a number of manufacturers (including
LANCOM Systems) and was referred to as "turbo mode", allowing data rates
of up to 108 Mbps. Turbo mode does not form part of the official IEEE standard but is frequently employed on point-to-point connections, for example,
because compatibility to other manufacturers tends to play a secondary role.
However, the success of the underlying technology has lead to its incorporation into 802.11n. IEEE 802.11n draft 2.0 uses the second transmission chan16
LANCOM L-300 Access Point Serie
nel in a way that maintains compatibility to IEEE 802.11a/g devices. 802.11n
transmits data over two contiguous channels. One of these assumes the task
of a control channel that, among other things, handles the administration of
data transmission. Concentrating these basic tasks into the control channel
means that devices supporting a transmission at 20 MHz only can also be
connected. The second channel is an extension that only comes comes into
effect if the remote client also supports data transmission at 40 MHz. The use
of the second channel remains optional throughout, with transmitter and
receiver deciding dynamically whether one or two channels should be employed.
Control channel
20 MHz
Extension channel
20 MHz
As the implementation of 40 MHz with separate control and extension channels is more efficient in the 802.11n draft than in the conventional turbo
mode, more than double the amount of carrier signals can be obtained (108
in total). The maximum data throughput when using improved OFDM modulation and two parallel data streams thus rises to 270 Mbps.
Short guard interval
The final improvement of the 802.11n draft is the improvement in the chronological sequence of data transmission. A signal that is to be transmitted in
a WLAN system is not broadcast at a distinct point in time but is "held up" for
a certain, constant transmission period. In order to prevent interference at the
receiving end, a short break is made following the transmission period before
the transmission of the next signal commences. The entire duration of transmission period and break are referred to in WLAN terminology as "symbol
length" and the break itself is known as the "guard interval".
IEEE 802.11a/g uses a symbol length of 4 μs: the information transmitted on
the carrier signal changes following transmission of 3.2 μs and a break of
0.8 μs. 802.11n reduces the break between transmissions to the so-called
"short guard interval" of only 0.4 μs.
17
EN
Chapter 1: Introduction
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
OFDM Symbol
3,2 μs
0,8 μs
EN
Payload data
3,2 μs
0,4 μs
Transmitting data in shorter intervals thus increases the maximum data
throughput when using improved OFDM modulation, two parallel data
streams and transmission at 40 MHz to 300 Mbps.
1.2.4
The MAC layer
Frame aggregation
The improvements in the physical layer brought about by the new 802.11n initially describe only the theoretical data throughput of the physical medium.
However, the share of this theoretical bandwidth that is actually available for
payload data is limited by two factors:
in addition to the actual payload data, each data packet in a wireless LAN
system contains additional information such as a preamble and MAC
address information.
Time is lost to the management events that occur when the transmission
medium is actually accessed. Thus the transmitter must negotiate access
authorization with the other receivers before transmitting each data
packet (frame); further delays are caused by data packet collisions and
other events.
This loss, referred to as "overhead", can be reduced by combining several data
packets together to form one large frame and transmitting them together. In
this process, information such as the preamble are only transmitted once for
all the combined data packets and delays due to negotiating access to the
transmission medium only occur at longer intervals.
The use of this method, known as frame aggregation, is subject to certain
restrictions:
As information such as MAC address only needs to be transmitted once
for the aggregated frame, only those data packets intended for the same
address can be combined.
18
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
Block acknowledgement
Each data packet directed to a specific address (i.e. not broadcast or multicast
packets) is acknowledged immediately after receipt. In this way, the transmitter is informed that the packet was received correctly and does not need to be
repeated. This principle also applies to aggregated frames in 802.11n.
Two different methods are used for frame aggregation. These are not explained in detail here, but they differ in the way aggregated frames are acknowledged.
Mac Service Data Units Aggregation (MSDUA) combines several Ethernet
packets together to form one common wireless LAN packet. This packet is
acknowledged only once and the acknowledgment is valid for all aggregated packets. If there is no acknowledgement the whole block is resent.
Mac Protocol Data Units Aggregation (MPDUA) combines individual wireless LAN packets together to form one large common wireless LAN packet.
In this case, each wireless LAN packet is acknowledged and the acknowledgements are combined and transmitted as a block. In contrast to
MSDUA, the sender receives information about the receipt status of every
single WLAN packet and can, if necessary, resend only those specific
packets that were not successful.
1.3
What can your LANCOM do?
The following table shows the properties and functions of your device.
LANCOM
L-305agn
Wireless
LANCOM
L-310agn
Wireless
LANCOM
L-315agn
dual Wireless
Expansion of the LAN through WLAN (infrastructure
mode)
✔
✔
✔
WLAN via point-to-point
✔
✔
✔
Applications
19
EN
All data packets that are to be combined into a single large frame must
be available at the sender at the time of aggregation—as a consequence
some data packets may have to wait until enough data packets for the
same destination are available with which they can be combined. This
aspect may represent a significant limitation for time-critical transmissions such as voice over IP.
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
LANCOM
L-305agn
Wireless
LANCOM
L-310agn
Wireless
✔
Relais mode with two WLAN modules
EN
LANCOM
L-315agn
dual Wireless
Relais mode with one WLAN modules
(WDS mixed mode)
✔
✔
✔
Internet Access
✔
✔
✔
IP router with Stateful Inspection Firewall
✔
✔
✔
DHCP and DNS server (for LAN and WLAN)
✔
✔
✔
N:N mapping for routing networks with the same
IP-address ranges over VPN
✔
✔
✔
Policy-based routing
✔
✔
✔
Backup solutions and load balancing with VRRP
✔
✔
✔
PPPoE Server
✔
✔
✔
WAN RIP
✔
✔
✔
Spanning Tree protocol
✔
✔
✔
Layer 2 QoS tagging
✔
✔
✔
Wireless transmission by IEEE 802.11g and IEEE
802.11b
✔
✔
✔
Wireless transmission by IEEE 802.11a and IEEE
802.11h
✔
✔
✔
WLAN
✔
Wireless transmission by IEEE 802.11b/g and IEEE
802.11a/h at the same time
Wireless transmission by IEEE 802.11n (including 40
MHz channels, packet aggregation, block acknowledgement, short guard interval)
✔
Internal antennas
✔
External antennas (3) and connector for AirLancer
Extender-Antennen
✔
✔
✔
3
4
Point-to-point mode (six P2P paths can be defined per
WLAN interface)
✔
✔
✔
Access point mode
✔
✔
✔
Client mode
✔
✔
✔
20
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
LANCOM
L-310agn
Wireless
LANCOM
L-315agn
dual Wireless
Managed mode for central configuration of WLAN
modules by a WLAN Controller
✔
✔
✔
Multi SSID
✔
✔
✔
Roaming function
✔
✔
✔
802.11i / WPA with hardware AES encryption
✔
✔
✔
WEP encryption (up to 128 Bit key length, WEP152)
✔
✔
✔
IEEE 802.1x/EAP
✔
✔
✔
MAC address filter (ACL)
✔
✔
✔
Individual passphrases per MAC address (LEPS)
✔
✔
✔
Closed network function
✔
✔
✔
Integrated RADIUS server
✔
✔
✔
VLAN
✔
✔
✔
Intra-Cell Blocking
✔
✔
✔
WLAN QoS (IEEE 802.11e, WME)
✔
✔
✔
✔
✔
EN
LANCOM
L-305agn
Wireless
LAN Connection
Gigabit ethernet connector 10/100/1000 Base-TX,
autosensing, auto node-hub, PoE by IEEE 802.3af
Fast Ethernet LAN port (10/100Base-TX), Autosensing,
Auto Node-Hub, PoE by IEEE 802.3af
2x
Power over Ethernet (PoE)
✔
✔
2x
redundant
DHCP and DNS server
✔
✔
✔
Connection for DSL or cable modem
✔
✔
✔
Connection for serial modem
✔
✔
✔
Stateful-Inspection Firewall
✔
✔
✔
Firewall filters (IP addresses, ports)
✔
✔
✔
WAN Connection
Internet access (IP router)
21
LANCOM L-300 Access Point Serie
Chapter 1: Introduction
LANCOM
L-305agn
Wireless
LANCOM
L-310agn
Wireless
LANCOM
L-315agn
dual Wireless
IP masquerading (NAT, PAT)
✔
✔
✔
Quality of Service
✔
✔
✔
Configuration with LANconfig or with web browser,
additionally terminal mode for Telnet or other terminal
programs, SNMP interface and TFTP server function.,
SSH connection.
✔
✔
✔
Setup wizards
✔
✔
✔
FirmSafe with firmware versions for absolutely secure
software upgrades
✔
✔
✔
Monitoring and management of the WLAN with Rogue
AP Detection
✔
✔
✔
✔
✔
✔
AirLancer Extender antennas for increased range
✔
✔
✔
LANCOM PoE Power Injector (100 MBit/s)
✔
✔
✔
LANCOM ES-1108P, 8 port switch with 4 PoE ports (100
MBit/s)
✔
✔
✔
LANCOM ES-2126, managed 24 port switch
(100 MBit/s)
✔
✔
✔
LANCOM ES-2126P, managed 24 port switch with
24 PoE-Ports (100 MBit/s)
✔
✔
✔
LANCOM Modem Adapter Kit for connection of analog
or GSM modems to the serial interface
✔
✔
✔
EN
Configuration and firmware
Optional software extensions
LANCOM Public Spot Option
Optional hardware extensions
22
LANCOM L-300 Access Point Serie
Chapter 2: Installation
2 Installation
This chapter will assist you to quickly install hardware and software. First,
check the package contents and system requirements. The device can be
installed and configured quickly and easily if all prerequisites are fulfilled.
Package contents
Please check the package contents for completeness before starting the
installation. In addition to the LANCOM Wireless Router itself, the package
should contain the following accessories:
12V DC Power adapter
LANCOM
L-305agn
Wireless
LANCOM
L-305agn
Wireless
✔
✔
✔
3
4
Dual-band diversity antennas with reverse
SMA connector
LANCOM
L-315agn dual
Wireless
PoE LAN connector cable (green plugs)
✔
✔
✔
Connector cable for the configuration interface
✔
✔
✔
LANCOM CD
✔
✔
✔
Printed documentation
✔
✔
✔
If anything is missing, please contact your retailer or the address stated on the
delivery slip of the unit.
2.2
2.2.1
System requirements
Configuring the LANCOM devices
Computers that connect to a LANCOM must meet the following minimum
requirements:
Operating system that supports TCP/IP, e.g. Windows Vista™,
Windows XP, Windows Millennium Edition (Me), Windows 2000, Windows 98, Linux, BSD Unix, Apple Mac OS, OS/2.
Access to the LAN via the TCP/IP protocol.
23
EN
2.1
LANCOM L-300 Access Point Serie
Chapter 2: Installation
Wireless LAN adapter or LAN access (if the access point is to be connected
to the LAN).

2.2.2
The LANtools also require a Windows operating system. A web browser under any operating system provides access to WEBconfig.
Operating access points in managed mode
EN
LANCOM Wireless Routers and LANCOM Access Points can be operated either
as self-sufficient Access Points with their own configuration ("Access Point
mode“) or as components in a WLAN infrastructure, which is controlled from
a central WLAN-Controller ("managed mode").
2.3
2.3.1
Status displays and interfaces
Status displays
Meanings of the LEDs
In the following sections we will use different terms to describe the behaviour
of the LEDs:
Blinking means, that the LED is switched on or off at regular intervals in
the respective indicated colour.
Flashing means, that the LED lights up very briefly in the respective
colour and stay then clearly longer (approximately 10x longer) switched
off.
Inverse flashing means the opposite. The LED lights permanently in the
respective colour and is only briefly interrupted.
Flickering means, that the LED is switched on and off in irregular intervals.
Front side
The L-300 Access Points have status displays on the front panel.
Example:
LANCOM L-305agn
Wireless
24
ETH
WPS
WLAN Data
WLAN Link
Power
L-305agn Wireless
LANCOM L-300 Access Point Serie
Chapter 2: Installation
Top
The two top-mounted LEDs enable the main function status to be assessed
even if the device is positioned vertically.
EN
Power
WLAN-Link
Power
This LED provides information on the device's operating state.
Off
Device switched off
Green
Blinking
Self-test after power-up
Green
On (permanently)
Device operational
Red/green
Blinking alternately
Device insecure: Configuration password not set
Orange/green
In the housing
cover; blinking
alternately with
the online LED
At least one WLAN module is in managed mode and
has not found a WLAN Controller yet. The corresponding WLAN module(s) is/are switched off until a WLAN
Controller is found to supply a configuration, or until
being switched manually into another operating mode.
Orange /red
In the housing
cover; blinking
alternately with
the online LED
At least one WLAN module is in managed mode and
has found a WLAN Controller. However, the WLAN
Controller cannot assign a configuration because the
firmware and/or the device's loader version is not compatible with the WLAN Controller.

The power LED blinks alternately in red/green until a configuration
password has been set. Without a configuration password, the configuration data in the LANCOM are unprotected. Normally you would
set a configuration password during the basic configuration (instructions in the following chapter). Information about setting a configuration password at a later time is available in the section 'The Security
Wizard'.
25
LANCOM L-300 Access Point Serie
Chapter 2: Installation
EN
If the power LED blinks red and no WAN connections can be
established, there is no cause for concern. This merely means
that a pre-set charge or time limit has been reached.
Power
Power
The power LED is blinking and no connection can be
made?
Signal that a
charge or time
limit has been
reached
There are three ways to remove the lock:
Reset the toll protection.
Increase the limit.
Deactivate the lock completely (set limit to '0').
LANmonitor shows you when a charge or time limit has been reached. To reset the toll protection, activate the context menu (right-mouse click) Reset charge and time limits. The charge
settings are defined in LANconfig under Management Costs (these settings are only available if the 'Complete configuration display' is activated under Tools Options).
With WEBconfig, resetting the toll protection and all parameters are found under Expert configuration Setup Charges.
WLAN Link
Provides information about the WLAN connections via the internal WLAN
module.
The following can be displayed for WLAN link:
WLAN Data
26
Off
No WLAN network defined or WLAN module deactivated. The WLAN module is not transmitting beacons.
Green
At least one WLAN network is defined and WLAN
module activated. The WLAN module is transmitting
beacons.
Green
Inverse flashing
Number of flashes = number of connected WLAN stations and P2P wireless connections, followed by a pause
(default).
Alternatively, the frequency of the flashed can indicate
the input sensitivity.
Green
Blinking
DFS scanning or other scan procedure.
Red
Blinking
Hardware error in the WLAN module
Provides information about the data traffic at the internal WLAN module.
LANCOM L-300 Access Point Serie
Chapter 2: Installation
The following can be displayed for WLAN data:
Flickering
TX data traffic.
Red
Flickering
Error in wireless LAN (TX error, e.g. transmission error
due to a poor connection)
Red
Blinking
Hardware error in the WLAN module
LAN connector status:
Off
EN
ETH
Green
No networking device attached
Green
On (permanently)
Connection to network device operational, not data traffic
Green
Flickering
Data traffic
WPS
Messages via the WiFi Protected Setup (WPS). This function is not yet available
with early shipments. Please download the latest firmware and the associated
user manual from www.lancom.de.
Device con-
LANCOM L-305agn Wireless and LANCOM L-310agn Wireless
nectors
Device example:
LANCOM L-310agn
Wireless
The rear panel accommodates the L-300 Access Point's connectors. The
models LANCOM L-305agn Wireless and LANCOM L-310agn Wireless are
equipped with the following connectors:
Ant 1
Ant 2
ETH
LANCOM L-310agn
Wireless only
Ant 3
Reset
WPS
Config (COM)
Connector for the first external antenna
Connector for the supplied power adapter
Ethernet socket ( 10/100/1000Base-Tx) for connection to the LAN.
The available transfer rate is detected automatically (autosensing).
The LAN connectors support the Power over Ethernet standard (PoE).
Further information about the operations with PoE can be found in the
information box → 'Power over Ethernet—elegant power supply over
LAN cabling'.
27
LANCOM L-300 Access Point Serie
Chapter 2: Installation
Activating the DSLoL Option also enables the LAN connectors to connect
the Access Point to a DSL modem.
LANCOM L-310agn
Wireless only
Connector for the second external antenna
Serial configuration port (RS 232/V.24)
EN
Reset button
Button for WiFi Protected Setup (WPS)
LANCOM L-310agn
Wireless only
Connector for the third external antenna
LANCOM L-315agn dual Wireless
The LANCOM L-315agn dual Wireless features two different WLAN modules:
The module WLAN 1 supports the antenna diversity mode, which provide
improved signals. This is implemented either with a polarization-diversity
antenna or with two separate antennas which are combined to provide
the antenna diversity.
The module WLAN 2 supports IEEE 802.11n-compliant MIMO mode for
higher data throughput, better radio coverage and longer ranges by connecting two additional antennas in combination with a third, internal
antenna.
A LANCOM L-315agn dual Wireless is equipped with the following connectors:
Device example:
LANCOM L-315agn
dual Wireless
WLAN 2 - Ant 3
WLAN 1 - Aux
WLAN 2 - Ant 2 internal
WLAN 2 - Ant 1
WLAN 1 - Main
Reset
ETH 2
ETH 1
Config (COM)
Connector for antenna 3 in MIMO mode with the second WLAN module.
Connection for the supplied power adapter
Aux connector for the first WLAN module. The Aux connectors are used
for connecting the diversity antennas.
Antenna 2 operates with the second WLAN module in MIMO mode and is
an internal antenna that does not have an external connector.
28
LANCOM L-300 Access Point Serie
Chapter 2: Installation
Second Ethernet socket (10/100Base-Tx) for connection to the LAN. Both
10 Mbit or 100 Mbit connections are supported. The available transfer
rate is detected automatically (autosensing).
EN
The LAN connectors support the Power over Ethernet standard (PoE).
Further information about the operations with PoE can be found in the
information box 'Power over Ethernet—elegant power supply over LAN
cabling'.
Power over Ethernet – the elegant power supply via LAN cabling
LANCOM Access Points are equipped for Power over Ethernet operation and comply with the
802.3af standard. PoE-capable network devices can be neatly provided with power over LAN
cabling. A power supply for each access point is therefore not necessary, significantly reducing the effort of installation.
Power is fed into the LAN at a central location by using a PoE injector, a power hub or power
switch. It is important that the cables used in the LAN are equipped with all 8 conductors.
Installing individual devices
Installing multiple devices
230 V
Switch
PoE - 48 V
Power Injector
230 V
ACCESS POINT
ACCESS POINT
PoE Switch 48 V
ACCESS POINT
Power switch
PoE can only be operated in network segments where exclusively PoE-capable devices are
being operated. Network devices that do not support PoE are protected by an intelligent
mechanism. This searches the network segment for attached devices that do not support PoE
before activating the PoE current. The voltage is only switched on in the LAN if it is equipped
exclusively with PoE devices.

Only devices supporting the 802.3af standard should be operated in a PoE installation! There is no entitlement to warranty claims arising from damage resulting from
the operation of inappropriate equipment.
29
LANCOM L-300 Access Point Serie
Chapter 2: Installation
Activating the DSLoL Option also enables the LAN connectors to connect
the access point to a DSL modem.
(First) Ethernet socket.
Connector for the serial configuration cable.
Reset switch (see 'Reset button functions')
EN
Connector for antenna 1 in MIMO mode with the second WLAN module.
Main connector for the second WLAN module. Where appropriate, the
main connectors are used for connecting AirLancer- auxiliary antennas.
Reset button functions
The reset button offers two basic functions—boot (restart) and reset (to the
factory settings)—which are called by pressing the button for different
lengths of time.
Press the button briefly to re-start the device. Pressing the button for 5
seconds or longer restarts the device and resets the configuration to its factory
settings. All LEDs on the device light up continuously. Once the switch is
released the device will restart with the restored factory settings.
Reset button
This option controls the behavior of the reset button when it is pressed:
Ignore: The button is ignored.

Please observe the following notice: The settings 'Ignore' or 'Boot
only' makes it impossible to reset the configuration to the factory settings. If the password is lost for a device with this setting, there is no
way to access the configuration! In this case the serial communications interface can be used to upload a new firmware version to the
device—this resets the device to its factory settings, which results in
the deletion of the former configuration. Instructions on firmware
uploads via the serial configuration interface are available in the LCOS
reference manual.
Boot only: With a suitable setting, the behavior of the reset button can
be controlled; the button is then ignored or a press of the button
prompts a re-start only, however long it is held down.
Reset-or-boot (standard setting): Press the button briefly to re-start
the device. Pressing the button for 5 seconds or longer restarts the
30
LANCOM L-300 Access Point Serie
Chapter 2: Installation
device and resets the configuration to its factory settings. All LEDs on
the device light up continuously. Once the switch is released the
device will restart with the restored factory settings.
After resetting, the device starts completely unconfigured and all settings are lost. If possible be sure to backup the current device configuration before resetting.
After resetting, the LANCOM Access Point returns to managed mode,
in which case the configuration cannot be directly accessed via the
WLAN interface!
Hardware installation
Installation of the L-300 Access Point devices involves the following steps:
LANCOM L-310agn
Wireless and
LANCOM L-315agn
dual Wireless only
Antennas – screw the antennas supplied to the back of the L-300 Access
Point. Depending on how the antennas are to be used, the 'Antenna
Grouping' parameter may need to be configured in order provide the
desired MIMO behavior (→ 'Advanced Wireless LAN Configuration').


Antennas are only to be attached or changed when the device is switched off. Mounting or demounting antennas while the device switched on may cause the destruction of the WLAN module!
When assembling separately purchased mobile radio antennas please
note that the maximum allowed transmission power of the wireless
LAN according to EIRP in the country in question may not be exceeded. The system operator is responsible for adhering to the threshold
values.
LAN – You can first connect the L-300 Access Point to your LAN. Plug in
one end of the supplied network cable (green connectors) to the LAN connector on the device and the other end into an available network connector socket in your local network or on a hub or switch. Alternatively
you can connect a single PC.
The LAN connector automatically recognizes the wiring (Auto MDI/X) and
the transfer rate (10/100/1000 Mbit with LANCOM L-305agn Wirelesss
and LANCOM L-310agn Wirelesss, 10/100 Mbit with LANCOM L-315agn
dual Wireless) by autosensing.
Information about the installation of PoE can be found in the information
box → 'Power over Ethernet—elegant power supply over LAN cabling'.
31
EN


LANCOM L-300 Access Point Serie
Chapter 2: Installation
DSLoL – if you wish to operate the access point in DSLoL mode you can
either connect the device directly to the DSL modem (exclusive mode) or
via a hub or switch in the wired LAN (automatic mode).
In exclusive mode, plug one end of the network cable supplied (green
connectors) into the LAN port of device and plug the other end into
the corresponding port on the DSL modem.
EN
In automatic mode, plug one end of the supplied network cable
(green connectors) to the LAN port on device and the other end
into an available network connector socket in your local network (or
a free socket on a switch or hub).
LAN interface: Can be used exclusively or in parallel for DSLoL.
There are basically two possibilities for using the access point for DSLoL operation. Use exclusive mode when you wish to connect the device directly to the DSL modem. Use automatic
mode when you wish to connect it to a hub or switch on a wired LAN and the hub (or switch)
is connected to the DSL modem. If the access point is advertised as a gateway via DHCP, computers in the LAN and wireless LAN can
access the Internet via one physical port
simultaneously. You can set the desired
mode in LANconfig in the interface settings of the DSLoL interface.

DSLoL supports all PPPoE-based
Internet connections (such as T-DSL) as well as Internet connections that have been
implemented with static IP addresses via a router (for example CompanyConnect or
various SDSL connections for business customers).
Power supply – socket is for connecting the power supply unit provided.
Alternatively you can use the PoE facility for the power supply (please refer
to → 'Power over Ethernet—elegant power supply over LAN cabling').

32
Please make sure to use only the power adapter listed in the technical
specifications. The use of the wrong power adapter can be of danger
to the device or persons.
LANCOM L-300 Access Point Serie
Chapter 2: Installation
Ready for operation? – After a brief self-test the power LED lights up
permanently in green or it blinks alternately in red and green until a configuration password is set.
Software installation
The following section describes the installation of the Windows-compatible
system software LANtools, as supplied.

2.4.1
You may skip this section if you use your L-300 Access Point exclusively
with computers running operating systems other than Windows.
Starting the software setup
Place the product CD into your drive. The setup program will start automatically.

If the setup does not start automatically, run AUTORUN.EXE in the
root directory of the LANCOM CD.
In Setup, select Install software. The following selection menus will appear
on screen:
33
EN
2.4
LANCOM L-300 Access Point Serie
Chapter 2: Installation
2.4.2
Which software should I install?
LANconfig is the Windows configuration program for all LANCOM routers and LANCOM access points. WEBconfig can be used alternatively
or in addition via a web browser.
EN
With LANmonitor you can use a Windows computer to monitor all of
your LANCOM routers and LANCOM access points.
WLANmonitor enables the observation and surveillance of wireless
LAN networks. Clients connected to the access points are shown, and
even non-authenticated access points and clients can be displayed as
well (rogue AP detection and rogue client detection).
With Documentation you copy the documentation files onto your PC.
Select the appropriate software options and confirm your choice with Next.
The software is installed automatically.
34
LANCOM L-300 Access Point Serie
Chapter 3: Basic configuration
3 Basic configuration
The basic configuration is conducted with a convenient Setup Wizard that
provides step-by-step guidance through the configuration and that requests
any necessary information.
Unconfigured LANCOM Access Points with standard factory settings
cannot be commissioned by means of the WLAN interface.
First of all this chapter presents the information that has to be entered for the
basic configuration. This first section will help you to gather up all of the
necessary data before you start the Wizard.
You subsequently enter this information into the Setup Wizard. Starting the
program and the following procedure are described step by step. LANconfig
and WEBconfig each have their own description. With all of the necessary
information collected in advance, this basic configuration can now take place
quickly and in ease.
At the end of this chapter we show you the necessary settings for the workplace computers in the LAN so that they can access the device without problem.
For LANCOM Access Points that are unconfigured and in their factory settings,
the WLAN modules are switched off and set to the "Managed" operating
mode. The WLAN modules search the LAN for a LANCOM WLAN Controller
from which they can receive their WLAN-interface configuration profiles.
Once executed, the Basic Settings Wizard automatically resets the
WLAN-module operating mode to "Access Point". The WLAN interface then
has to be configured manually.

Only activate the Basic Settings Wizard if the Access Point is not to be
configured from a WLAN-Controller. Subsequently execute the WLAN
Wizard → WLAN Configuration.
35
EN

LANCOM L-300 Access Point Serie
Chapter 3: Basic configuration
3.1
What details are necessary?
The Basic Settings Wizard is used to set the L-300 Access Points basic TCP/IP
parameters and to protect the device with a configuration password. The following description of the information required by the wizard is divided into
the following configuration sections:
EN
3.1.1
TCP/IP settings
Protecting the configuration
Wireless LAN details
Security settings
TCP/IP settings
TCP/IP configuration can be performed in two different ways: Either fully automatically or manually. No user input is required if TCP/IP configuration is performed automatically. All parameters are set by the Setup Wizard on its own.
When manual TCP/IP configuration is performed the wizard prompts for the
usual TCP/IP parameters: IP address, network mask etc. (more on this later)
The fully automatic TCP/IP configuration is only possible in certain network
environments. For this reason the Setup Wwizard analyses the connected LAN
to see whether fully automatic configuration is possible or not.
New LAN – fully automatic configuration possible
The setup wizard offers to configure TCP/IP fully automatically if no network
devices connected have yet been configured. This usually happens in the following situations:
Only a single PC is going to be attached to the L-300 Access Point
Setting up a new network
Fully automatic TCP/IP configuration will not be offered if you are integrating
the L-300 Access Point into an existing TCP/IP LAN. In this case please continue with the section 'Required information for manual TCP/IP configuration'.
The result of fully automatic TCP/IP configuration is as follows: The L-300
Access Point is assigned the IP address '172.23.56.254' (network mask
'255.255.255.0'). The integrated DHCP server is also activated so that the
L-300 Access Point can assign the devices in the LAN IP addresses automatically.
36
LANCOM L-300 Access Point Serie
Chapter 3: Basic configuration
Should you still configure manually?
Select automatic configuration if you are not familiar with networks and
IP addresses.
Select manual TCP/IP configuration if you are familiar with networks and
IP addresses and one of the following statements is true:
You have not yet used any IP addresses in your network but would like
to now; You would like to specify the IP address for the router yourself
and would like to assign it a user-defined address from one of the
address ranges reserved for private use, for example '10.0.0.1' with
a network mask of '255.255.255.0'. If you do this you simultaneously
specify the address range that the DHCP server will subsequently use
for the other devices in the network (provided the DHCP server is activated).
You have so far also used IP addresses on the computers in the LAN.
Required information for manual TCP/IP configuration
When performing manual TCP/IP configuration the Setup Wwizard prompts
you for the following information:
DHCP mode of operation
Off: The IP addresses required must be entered manually.
Server: The L-300 Access Point operates as DHCP server in the network; as a minimum its own IP address and the network mask must
be assigned.
Client: The L-300 Access Point obtains its address information from
another DHCP server; no address information is required.
IP address and network mask for the L-300 Access Point
Assign the L-300 Access Point a free IP address from your LAN's address
range and enter the network mask.
Gateway address
Enter the gateway's IP address if you have selected 'Off' as the DHCP
mode of operation or if another network device is assuming the role of
gateway in the 'Server' mode of operation.
DNS server
37
EN
Fully automatic TCP/IP configuration is optional. Instead of this you can select
manual configuration. Make this selection after considering the following:
LANCOM L-300 Access Point Serie
Chapter 3: Basic configuration
Enter the IP address of a DNS server to resolve domain names if you have
selected 'Off' as the DHCP mode of operation or if another network device
is assuming the role of DNS server in the 'Server' mode of operation.
3.1.2
Configuration protection
EN
Using a password secures access to the L-300 Access Point's configuration
and thus prevents unauthorized modification. The device's configuration contains a great deal of sensitive data such as data for Internet access and should
be protected by a password in all cases.
3.1.3

Multiple administrators can be set up in the configuration of the
LANCOM, each with differing access rights. Up to 16 different administrators can be set up for a L-300 Access Point. Further information
can be found in the LCOS reference manual under “Managing rights
for different administrators”.

In the managed mode the LANCOM Wireless Routers and LANCOM
Access Points automatically receive the same root password as the
WLAN-Controller, assuming that no root password has been set in the
device itself.
Settings for the wireless LAN
There is a handy installation wizard to help you with the LANCOM Access
Point's wireless LAN configuration. After performing the basic configuration
please execute the wizard to configure the wireless LAN interface (→ 'WLAN
configuration with the wizards in LANconfig').
3.2
Instructions for LANconfig
Start up LANconfig by clicking Start Programs LANCOM LANconfig. LANconfig automatically detects the new LANCOM devices in
the TCP/IP network.
If an unconfigured device is being found during searching, the setup
wizard starts that will help you make the basic settings of the device or
will even do all the work for you (provided a suitable network environment
exists).
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

If the setup wizard does not start automatically, start a manual search
for new devices on all ports (if the LANCOM is connected via a serial
port) or in the network (Device Find).
If you cannot access an unconfigured LANCOM, the problem may be
due to the netmask of the LAN: with less than 254 possible hosts (netmask > '255.255.255.0'), please ensure that the IP address
'x.x.x.254' is located in your own subnet.
If you have chosen automatic TCP/IP configuration, please continue with
Step .
If you would like to configure the TCP/IP settings manually, assign an available address from a suitable address range to the LANCOM. Confirm your
choice with Next.
Specify whether or not the router should act as a DHCP server. Make your
selection and confirm with Next.
In the following window, specify the password for configuration access.
Note that the password is case-sensitive and ensure that it is sufficiently
long (at least 6 characters).
In addition, you may specify whether the device may only be configured
from the local network or whether remote configuration via the WAN (i.e.
a remote network) is also permissible.

Please note that enabling this will also permit remote configuration
via the Internet. You should always make sure that the configuration
access is protected with a password.
In the next window, select your DSL provider from the list that is displayed.
If you select 'My provider is not listed here,' you must enter the transfer
protocol used by your DSL provider manually. Confirm your choice with
Next.
39
EN
Chapter 3: Basic configuration
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Chapter 3: Basic configuration
Connect charge protection can limit the cost of DSL connections to a predetermined amount if desired. Confirm your choice with Next.
Complete the configuration with Finish.

EN
3.3
Section 'TCP/IP settings to workstation PCs' will describe the settings
required for the individual workstations in the LAN.
Instructions for WEBconfig
Device settings can be configured from any Web browser. WEBconfig configuration software is an integral component of the LANCOM. A Web browser is
all that is required to access WEBconfig. WEBconfig offers similar Setup
Wizards to LANconfig and hence provides the perfect conditions for easy configuration of the LANCOM – although, unlike LANconfig, it runs under any
operating system with a Web browser.
To carry out a configuration with WEBconfig, you need to know how to contact the device. Device behavior and accessibility for configuration via a Web
browser depend on whether the DHCP server and DNS server are active in the
LAN already, and whether these two server processes share the assignment in
the LAN of IP addresses to symbolic names.
Following power-on, unconfigured LANCOM devices first check whether a
DHCP server is already active in the LAN. Depending on the situation, the
device can either enable its own DHCP server or enable DHCP client mode. In
the second operating mode, the device can retrieve an IP address for itself
from a DHCP server in the LAN.
Network without a DHCP server
In a network without a DHCP server, unconfigured LANCOM devices enable
their own DHCP server service when switched on and assign IP addresses,
information on gateways, etc. to other computers in the LAN (provided they
are set to automatic retrieval of IP addresses – auto DHCP). In this constellation, the device can be accessed by every computer with the auto DHCP func-
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tion enabled with a Web browser under name LANCOM or under IP address
172.23.56.254.
http://LANCOM
EN
http://172.23.56.254
If the configuration computer does not retrieve its IP address from the
LANCOM DHCP server, it determines the current IP address of the computer
(withStart Run cmd and command ipconfig at the prompt under Windows 2000 or Windows XP, with Start Run cmd and command winipcfg at the prompt under Windows Me or Windows 9x or with command
ifconfig in the console under Linux). In this case, the LANCOM can be
accessed with address x.x.x.254 (the “x”s stand for the first three blocks in
the IP address of the configuration computer).
Network with DHCP server
If a DHCP server for the assignment of IP addresses is active in the LAN, an
unconfigured LANCOM device disables its own DHCP server, switches to DHCP
client mode and retrieves an IP address from the DHCP server in the LAN.
However, this IP address is initially unknown and accessing the device
depends on the name resolution:
If the LAN also has a DNS server for name resolution and this communicates the IP address/name assignment to the DHCP server, the device can
be reached under name "LANCOM-<MAC address>", e.g.
“LANCOM-00a057xxxxxx”.
http://LANCOM-00a05700094A

The MAC address on a sticker on the base of the device.
If there is no DNS server in the LAN, or if it is not coupled to the DHCP
server, the device cannot be reached via the name. In this case the following options remain:
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Use suitable tools to find out the IP address assigned to the LANCOM
by DHCP and access the device directly using this IP address.
Using LANconfig.
Login
EN
When prompted for user name and password when accessing the device,
enter your personal data in the appropriate fields. Observe the use of upper
and lower case.
If you used the general configuration access, only enter the corresponding
password. The user name field remains blank in this case.

As an alternative, the login dialog provides a link for an encrypted
connection over HTTPS. Always use the HTTPS connection for increased security whenever possible.
Setup Wizards
The setup Wizards allow quick and easy configuration of the most common
device settings. Select the Wizard and enter the appropriate data on the following screens.
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EN
Chapter 3: Basic configuration

3.4
The settings are not stored in the device until inputs are confirmed on
the last screen of the Wizard.
TCP/IP settings to workstation PCs
The correct addressing of all devices within a LAN is extremely important for
TCP/IP networks. In addition, all computers must know the IP addresses of two
central points in the LAN:
Default gateway – receives all packets that are not addressed to computers within the local network.
DNS server – translates network names (www.lancom.de) or names of
computers (www.lancom.de) to actual IP addresses.
The LANCOM can perform the functions of both a default gateway and a DNS
server. In addition, as a DHCP server it can also automatically assign valid IP
addresses to all of the computers in the LAN.
The correct TCP/IP configuration of the PCs in the LAN depends on the method
used to assign IP addresses within the LAN:
IP address assignment via the LANCOM (default)
In this operating mode the LANCOM not only assigns IP addresses to the
PCs in the LAN, it also uses DHCP to specify its own IP address as that of
the default gateway and DNS server. The PCs must therefore be configured so that they automatically obtain their own IP address and the IP
addresses of the standard gateway and DNS server (via DHCP).
IP address assignment via a separate DHCP server
The workstation PCs must be configured so that they automatically obtain
their own IP address and the IP addresses of the standard gateway and
DNS server (via DHCP). The IP address of the LANCOM must be stored on
the DHCP server so that the DHCP server transmits it to the PCs in the LAN
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as the standard gateway. In addition, the DHCP server should also specify
the LANCOM as a DNS server.
Manual IP address assignment
If the IP addresses in the network are assigned static ally, then for each PC
the IP address of the LANCOM must be set in the TCP/IP configuration as
the standard gateway and as a DNS server.
EN

44
For further information and help on the TCP/IP settings of your
LANCOM, please see the reference manual. For more information on
the network configuration of the workstation computers, please refer
to the documentation of your operating system.
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4 Security settings

4.1
You can carry out the configuration of security settings very quickly
and conveniently with the Security Wizards in LANconfig and
WEBconfig.
Security in the wireless LAN
Wireless LANs are potentially a significant security risk. It is a common
assumption that it is simple to misuse data transferred by wireless.
Wireless LAN devices from LANCOM Systems enable the latest security technologies to be used.
4.1.1
Suppress SSID broadcast – closed network
Access control by MAC address
LANCOM Enhanced Passphrase Security (LEPS)
Encrypted data transfer (802.11i/WPA or WEP)
802.1x / EAP
Optional IPSec-over-WLAN VPN
Suppress SSID broadcast – closed network
Every wireless LAN compliant with IEEE 802.11 has its own network name
(SSID). This network name facilitates the identification and servicing of wireless LANs.
A wireless LAN can be set up so that any user has access. These networks are
known as open networks. An open network is accessible to users even if they
do not know the network name. Access is possible simply by entering the network name 'ANY'.
A closed network denies access to clients trying to access 'ANY' The user must
enter the correct network name for this to work. Hidden networks remain invisible.
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Your LANCOM device has numerous security functions. You find in this chapter
all information needed for an optimal protection of the base station.
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4.1.2
Access control by MAC address
Every network device has a unique identification number. This identification
number is known as the MAC address (Media Access Control) and it is unique
worldwide.
The MAC address is programmed into the hardware. Wireless LAN devices
from LANCOM Systems display their MAC number on the housing.
EN
Access to an infrastructure network can be limited to certain wireless LAN
devices by defining MAC addresses. The access points have filter lists in (ACL
– access control list) for storing authorized MAC addresses.
4.1.3
LANCOM Enhanced Passphrase Security
With LEPS (LANCOM Enhanced Passphrase Security), LANCOM Systems has
developed an efficient method that makes use of the simple configuration of
IEEE 802.11i with passphrase, but that avoids the potential error sources in
passphrase distribution. LEPS uses an additional column in the ACL to assign
an individual passphrase consisting of any 4 to 64 ASCII characters to each
MAC address. The connection to the access point and the subsequent encryption with IEEE 802.11i or WPA is only possible with the right combination of
passphrase and MAC address.
LEPS can be used locally in the device and can also be centrally managed with
the help of a RADIUS server, and it works with all WLAN client adapters currently available on the market without modification. Full compatibility to
third-party products is assured as LEPS only involves configuration in the
access point.
An additional security aspect: LEPS can also be used to secure single pointto-point (P2P) connections with an individual passphrase. Even if an access
point in a P2P installation is stolen and the passphrase and MAC address
become known, all other WLAN connections secured by LEPS remain protected, particularly when the ACL is stored on a RADIUS server.

46
Guest access with LEPS: LEPS can also be set up to allow access to
guests. To this end, all users of the internal WLAN network are given
individual passphrases. Guests can make use of their own dedicated
SSID and a global passphrase. To avoid abuse, the this global passphrase can be changed on a regular basis—every few days, for
example.
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4.1.4
Encrypted data transfer
Use encryption on the data transferred in the WLAN. Activate the strongest possible encryption method available to you ((802.11i with AES, TKIP
or WEP) and enter the appropriate keys or passphrases into the access
point and the WLAN clients.
Regularly change the WEP key in your access point. The passphrases for
802.11i or WPA do not have to be changed quite so regularly as new keys
are generated for each connection anyway. This is not the only reason that
the encryption with 802.11i/AES or WPA/TKIP is so much more secure
than the now obsolete WEP method.

LANCOM Systems's recommendation for the most secure passphrase
variant is to employ 802.11i (WPA2) in combination with AES. The key
should be randomly selected from the largest possible range of numbers and should be as long as possible (32 to 63 characters). The prevents dictionary attacks.
If the data is of a high security nature, further improvements include additionally authenticating the client with the 802.1x method (’802.1x / EAP’
→ Seite 47) or activate an additional encryption of the WLAN connection
as used for VPN tunnels (’IPSec over WLAN’ → Seite 48). In special cases,
a combination of these two mechanisms is possible.

4.1.5
Detailed information about WLAN security and the various encryption
methods are to be found in the LCOS reference manual.
802.1x / EAP
The international industry standard IEEE 802.1x and the Extensible Authentication Protocol (EAP) enable access points to carry out reliable and secure
access checks. The access data can be managed centrally on a RADIUS server
(integrated RADIUS/EAP server in the L-300 Access Point or external RADIUS/
EAP server) and accessed by the access point when required. The dynamically
generated and cryptographically secure key material for 802.11i (WPA1/2)
replaces the manual key management.
47
EN
Encryption takes on a special role in the transfer of data in wireless LANs.
Wireless communication with IEEE 802.11 is supplemented with the the
encryption standards 802.11i/WPA and WEP. The aim of the encryption
methods is to provide wireless LAN with levels of security equivalent to those
in cabled LANs.
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The IEEE-802.1x technology has already been fully integrated since Windows
XP. Client software exists for other operating systems. The drivers for the
LANCOM AirLancer wireless cards feature an integrated 802.1x client.
4.1.6
IPSec over WLAN
EN
With the help of the IPSec-over-WLAN technology in addition to the security
measures described already, a wireless network for the exchange of especially
sensitive data can be optimally secured. Required for this is a base station
with VPN support and the LANCOM Advanced VPN Client that operates under
Windows 2000, XP and Windows Vista™. Client software from third parties is
available for other operating systems.
4.2
Tips for the proper treatment of keys and passphrases
By observing a few vital rules on the treatment of keys you can significantly
increase the security of encryption techniques.
Keep your keys as secret as possible.
Never write down a key. Popular but completely unsuitable are, for
example: Notebooks, wallets and text files on the computer. Do not pass
on a key unless it is absolutely necessary.
Choose a random key.
Use long random strings that combine letters and numbers (at least 32 to
a maximum of 63 characters). Keys that are normal words are not secure.
If you suspect anything, change the key immediately.
When an employee with access to a key leaves the company, then it is
high time to change the wireless LAN key. Even if there is the slightest suspicion of a leak, renew the key.
LEPS avoids the global distribution of passphrases.
Activate LEPS to enable the use of individual passphrases.
4.3
The security settings wizard
Access to the configuration of a device permits not only to read out critical
information (e.g. Internet password). Rather, also the entire settings of the
security functions (e.g. firewall) can be altered then. So an unauthorized configuration access endangers not only a single device, but the entire network.
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Your LANCOM has a password protection for the configuration access. This
protection is already activated during the basic configuration by entering a
password.
Besides these general settings you can also check the security settings of the
wireless network with the security wizard as far as your device has a WLAN
interface.
4.3.1
Wizard for LANconfig
Mark your LANCOM in the selection window. Select from the command
bar Extras Setup Wizard.
Select in the selection menu the setup wizard Control Security Settings
and confirm your choice with Next.
Enter your password in the following windows and select the allowed protocols for the configuration access from local and remote networks.
In a next step parameters of the configuration lock like number of failed
log-in attempts and the duration of the lock can be adjusted.
Now activate Stateful Inspection, ping-blocking and Stealth mode in the
the firewall configuration.
The wizard will inform you when entries are complete. Complete the configuration with Finish.
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EN
The device locks access to its configuration for a specified period of time after
a certain number of failed log-in attempts. Both the number of failed attempts
and the duration of the lock can be set as needed. By default, access is locked
for a period of five minutes after the fifth failed log-in attempt.
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4.3.2
Wizard for WEBconfig
Under WEBconfig you have the possibility to run the wizard Security settings
to control and change the settings. The following values are handled:
EN
password for the device
allowed protocols for the configuration access of local and remote networks
parameters of configuration lock (number of failed log-in attempts and
duration of the lock)
4.4
The security checklist
The following checklists provide an overview of all security settings that are
important to professionals. Most of the points in this checklist are uncritical
for simple configurations. In these cases, the security settings in the basic
configuration or that were set with the Security Wizard are sufficient.

Detailed information about the security settings mentioned here are
to be found in the reference manual.
Have you secured your wireless network with encryption and
access control lists?
With the help of 802.11i, WPA or WEP, you can encrypt the data in your
wireless network with different encryption methods such as AES, TKIP or
WEP. LANCOM Systems recommends the strongest possible encryption
with 802.11i and AES. If the WLAN client adapters do not support these,
then you should use TKIP or at least WEP. Make sure that the encryption
function in your device is activated, and that at least one passphrase or
WEP key has been entered and selected for application.

For security reasons, LANCOM Systems strongly advises you not to use
WEP! You should only ever use WEP under exceptional circumstances.
When using WEP encryption, use additional security mechanisms
additionally.
To check the WEP settings, open LANconfig, go to the configuration area
and select ‘WLAN security’ on the '802.11i/WEP' tab to view the encryption settings for the logical and physical WLAN interfaces.
With the access control list (ACL) you can permit or prevent individual clients accessing your wireless LAN. The decision is based on the MAC
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The LANCOM Enhanced Passphrase Security (LEPS) uses an additional
column in the ACL to assign an individual passphrase consisting of any 4
to 64 ASCII characters to each MAC address. The connection to the access
point and the subsequent encryption with IEEE 802.11i or WPA is only
possible with the right combination of passphrase and MAC address.
Have you protected the configuration with a password?
The simplest way of protecting the configuration is to agree upon a password. If no password has been agreed for the device, the configuration is
open to be changed by anybody. The field for entering the password is to
be found in LANconfig in the 'Management' configuration area on the
'Security' tab. It is absolutely imperative to assign a password to the configuration if you want to enable remote configuration!
Have you permitted remote configuration?
If you do not require remote configuration, please ensure to switch it off.
If you need to make use of remote configuration, ensure that you do not
fail to password-protect the configuration (see the section above). The
field for disenabling remote configuration is to be found in LANconfig in
the 'Management' configuration area on the 'Security' tab. Under ‘Access
rights – From remote networks’ select the option ‘denied’ for all methods
of configuration.
Have you allowed configuration from the wireless LAN?
If you do not need to configure the device from the wireless LAN, switch
this function off. The field for disenabling configuration from the wireless
LAN is to be found in LANconfig in the 'Management' configuration area
on the 'Admin' tab. Under ‘Access rights – From the wireless LAN’ select
the option ‘denied’ for all methods of configuration.
Have your password- protected the SNMP configuration?
Protect the SNMP configuration with a password too. The field for password-protecting the SNMP configuration is also to be found in LANconfig
in the 'Management' configuration area on the 'Security' tab.
Have you activated the firewall?
The stateful inspection firewall of LANCOM devices ensures that you local
network cannot be attacked from the outside. Activate the firewall in
LANconfig under 'Firewall/QoS' on the 'General' tab.
51
EN
address that is permanently programmed into wireless network adapters.
To check the access-control list, go to the configuration area in LANconfig
and select ‘WLAN security’ on the ‘Stations’ tab.
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
Note that firewall security mechanisms (incl. IP masquerading, port
filters, access lists) are active only for data connections that are transmitted via the IP router. Direct data connections via the bridge are not
protected by the firewall!
EN
Are you using a 'deny all' firewall strategy?
Maximum security and control is initially achieved by denying all data
traffic from passing the firewall. The only connections to be accepted by
the firewall are those that are to be explicitly permitted. This ensures that
Trojan horses and certain types of e-mail virus are denied communication
to the outside. Activate the firewall rules in LANconfig under 'Firewall/
QoS' on the 'Rules' tab. Instructions on this are to be found in the reference manual.
Have you activated IP masquerading?
IP masquerading refers to the concealment of local computers while they
access the Internet. All that is revealed to the Internet is the IP number of
the router module of the device. The IP address can be fixed or dynamically assigned by the provider. The computers in the LAN then use the router as a gateway and are not visible themselves. The router separates the
Internet from the intranet like a wall. The application of IP masquerading
is set in the routing table for every route individually. The routing table can
be found in the LANconfig in the configuration area 'IP router' on the
'Routing' tab.
Have you used filters to close critical ports?
The firewall filters in LANCOM devices offer filter functions for individual
computers or entire networks. It is possible to set up source and destination filters for individual ports or port ranges. Furthermore, filters can be
set for individual protocols or any combination of protocols (TCP/UDP/
ICMP). It is especially convenient to set up the filters with the aid of
LANconfig. Under 'Firewall/QoS', the 'Rules' tab contains the functions for
defining and editing filter rules.
Have you excluded certain stations from accessing the device?
A special filter list can be used to limit access to the device's internal functions via TCP/IP. The phrase "internal functions" refers to configuration
sessions via LANconfig, WEBconfig, Telnet or TFTP. As standard this table
contains no entries, meaning that computers with any IP address can use
TCP/IP and Telnet or TFTP to commence accessing the device. The first time
an IP address is entered with its associated netmask, the filter is activated
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Do you store your saved LANCOM configuration to a safe location?
Protect your saved configurations in a location that is safe from unauthorized access. Otherwise, by way of example, an unauthorized person may
load your stored configuration file into another device and they can access
the Internet at your expense.
Concerning the exchange of your particularly sensitive data via
wireless LAN; have you set up the functions offered by IEEE
802.1x?
If you move especially sensitive data via wireless LAN you can provide
even stronger security by using the IEEE 802.1x technology. To check or
activate the IEEE 802.1x settings in LANconfig select the configuration
area '802.1x'.
Have you activated the protection of your WAN access in case the
device is stolen?
After being stolen, the device can theoretically be operated at another
location by unauthorized persons. Password-protected device configurations do not stop third parties from operating RAS access, LAN connectivity or VPN connections that are set up in the device: A thief could gain
access to a protected network.
The device’s operation can be protected by various means; for example, it
will cease to function if there is an interruption to the power supply, or if
the device is switched on in another location.
The scripting function can store the entire configuration in RAM only so
that restarting the device will cause the configuration to be deleted. The
configuration is not written to the non-volatile flash memory. A loss of
power because the device has been relocated will cause the entire configuration to be deleted (for further information see the reference manual).
Have you ensured that the reset button is safe from accidental
configuration resets?
Some devices simply cannot be installed under lock and key. There is consequently a risk that the configuration will be deleted by mistake if a coworker presses the reset button too long. The behavior of the reset button
53
EN
and only the IP addresses contained in this entry are entitled to make use
of internal functions. Further entries can be used to extend the circle of
authorized parties. The filter entries can describe individual computers or
even entire networks. The access list can be found in the LANconfig in the
configuration area 'TCP/IP' on the 'General' tab.
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EN
can be set so that a press is either ignored or it causes a re-start, depending on the time for which it is held pressed.
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5 Advanced wireless LAN configuration
The configuration of the LANCOM Access Points for your wireless LAN is conducted with the aid of highly convenient installation wizards.
5.1
EN
The settings include the general, far-reaching parameters and also the individual settings for one or more logical wireless LAN networks (WLAN radio cells
or SSIDs).
WLAN configuration with the wizards in LANconfig
Highly convenient installation wizards are available to help you with the configuration of LANCOM Access Points for your wireless LAN.
The settings include the general shared parameters and also the individual
settings for one or more logical wireless LAN networks (WLAN radio cells or
SSIDs).
Mark your LANCOM Access Point in the selection window in LANconfig.
From the command line, select Extras Setup Wizard.
In the selection menu, select the Setup Wizard, Configure WLAN interface and confirm the selection with Continue.
Make the settings as requested by the wizard and as described as follows.
Country settings
Regulations for the operation of WLAN cards differ from country to country.
The use of some radio channels is prohibited in certain countries. To operate
the LANCOM Access Points while observing the regulations in various countries, all physical WLAN interfaces can be set up for the country where they
are operated.
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WLAN module operation
The WLAN modules can be operated in various operating modes:
EN
As a base station (Access Point mode), the device makes the link between
WLAN clients and the cabled LAN. Parallel to this, point-to-point connections are possible as well.
In Managed Mode the Access Points also accept WLAN clients into the
network, although the clients then join a WLAN infrastructure that is configured by a central WLAN-Controller. In this operating mode, no further
WLAN configuration is necessary as all WLAN parameters are provided by
the WLAN-Controller.
In client mode, the device itself locates the connection to another Access
Point and attempts to register with a wireless network. In this case the
device serves, for example, to link a cabled network device to an Access
Point over a wireless connection. In this operating mode, parallel pointto-point connections are not possible.
For further information please refer to section → Client Mode.
Physical WLAN settings
Along with the radio channels, the physical WLAN settings can also be used
to activate options such as the bundeling of WLAN packets (TX Burst), hardware compression, or the use of QoS compliant with 802.11e. You also control
the settings for the diversity behavior here.
Logical WLAN networks
Each WLAN module can support up to eight logical WLAN networks for
mobile WLAN clients to register with. The following parameters have to be set
when configuring a logical WLAN network:
56
The network name (SSID)
Open or closed radio LAN
Encryption settings
MAC filter
Client-bridge operation
Filter settings
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Point- to-point settings
The configuration of P2P connections involves setting not only the operating
mode but also the station name that the Access Point can connect to. Also,
the role as "Master" or "Slave" is set here.
For further information please refer to section → Point-to-point connections.
5.2
Special wireless LAN parameters for 802.11n
You can use special parameters to adjust the operation of the 802.11n Access
Point to match the application in question. Some of the parameters are concerned with compatibility to the conventional wireless LAN standard, others
with transmission performance.
5.2.1
Compatibility
In principle, 802.11n is backwardly compatible to the previous IEEE 802.11a/
b/g wireless LAN standards even though not all 802.11n functions are supported in this mode. Compatibility can be allowed or restricted by selecting
the operating mode in the relevant frequency band (2.4 or 5 GHz). In this way
you can allow the corresponding wireless LAN clients to register with the
Access Point.
In the 2.4 GHz band you can allow operation in accordance with 802.1b/
g/n either exclusively or in various mixed modes. When 802.11b is supported you can also select whether only 11 Mbps mode or the older
2 Mbps are to be supported.
In the 5 GHz band you can choose to allow either greenfield mode
(802.11n only) or mixed operation with 802.11a.

5.2.2
Compatibility is always achieved at the expense of performance. It is
therefore recommended to allow only those modes of operation that
are absolutely necessary for the wireless LAN clients in use.
Performance settings for the wireless LAN module
802.11n provides a number of functions intended to improve wireless LAN
performance, some of which apply to the entire wireless LAN module.
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EN
Along with the settings for the Access Point itself, also to be defined is the
remote site that the Access Point can contact via the P2P connection.
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Double bandwidth (40 MHz channels)
A wireless LAN module normally uses a frequency range of 20 MHz in
which data to be transmitted is modulated to the carrier signals. 802.11a/
b/g use 48 carrier signals in a 20 MHz channel. The use of double the frequency range of 40 MHz means that 96 carrier signals can be used, resulting in a doubling of the data throughput.
EN
802.11n can use 52 carrier signals in one 20 MHz channel for modulation
and up to 108 in a 40 MHz channel. The use of the 40 MHz option for
802.11n therefore means a performance gain of more than double.
Antenna grouping
LANCOM Access Points with 802.11n support can use up to three antennas for transmitting and receiving data. Using several antennas with
802.11n can have different purposes:
Improved data throughput: Using "spatial multiplexing" allows parallel data streams to be implemented to transmit double the amount
of data.
Improving wireless coverage: Cyclic shift diversity (CSD) can be used
to transmit a radio signal in different phases. This reduces the risk of
the signal being erased at certain points in the radio cell.
Depending on the application the use of the antennas can be set:
When using the device in Access Point mode to connect wireless LAN
clients it is generally recommended to use all three antennas in parallel in order to achieve good network coverage.
Antenna ports 1 and 3 are used for 2 parallel data streams for
ex ample in point to point connections with an appropriate dual slant
antenna. The third antenna port is deactivated.
For applications with only one antenna (for example an outdoor
application with just one antenna) the antenna is connected to port 1
and ports 2 and 3 are deactivated

5.2.3
The ''Auto' setting means that all available antennas are used.
Performance settings for wireless LAN networks
Some performance settings can be configured separately for each logical
wireless LAN network (i.e. for each SSID).
Number of spatial streams
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
With the 'Auto' setting all spatial streams that are supported by the
wireless LAN module in question are used.
Modulation Coding Scheme (MCS)
A specific MCS number denotes a unique combination from the modulation of the individual carriers (BPSK, QPSK, 16QAM, 64QAM), coding rate
(i. e. proportion of error correction bits in the raw data and number of
spatial streams. 802.11n uses this term instead of the term "data rate"
used in older wireless LAN standards because data rate is no longer an
unequivocal description.
MCS index
Data streams
Modulation
Coding rate
Data throughput
(GI=0.4 μs, 40 MHz)
0
1
BPSK
1/2
15
1
1
QPSK
1/2
30
2
1
QPSK
3/4
45
3
1
16QAM
1/2
60
4
1
16QAM
3/4
90
5
1
64QAM
1/2
120
6
1
64QAM
3/4
135
7
1
64QAM
5/6
150
8
2
BPSK
1/2
30
9
2
QPSK
1/2
60
10
2
QPSK
3/4
90
11
2
16QAM
1/2
120
12
2
16QAM
3/4
180
13
2
64QAM
1/2
240
14
2
64QAM
3/4
270
15
2
64QAM
5/6
300
59
EN
The spatial multiplexing function allows several separate data streams to
be transmitted over separate antennas in order to increase data throughput. When using external antennas, please observe that the number of
spatial streams can be transmitted by the antenna system (e.g. two with
polarization-diversity antennas and one with normal outdoor antennas
with a single antenna connector).
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EN
The MCS selection therefore indicates the type and minimum or maximum
number of modulation parameters that should be used for one or two
spatial data streams. Within these limits, the appropriate MCS is selected
when the connection is established depending on the current conditions
and may be adapted during the connection if required. This also defines
the maximum attainable data throughput, indicated in the last column of
the table (here for the short guard interval GI = 0.4 μs using the 40 MHz
channel).
Short guard interval
This option is used to reduce the transmission pause between two signals
from 0.8 μs (default) to 0.4 μs (short guard interval). This increases the
effective time available for data transmission and thus the data throughput. However, the wireless LAN system becomes more liable to disruption
that can be caused by interference between two consecutive signals.
The short guard interval is activated in automatic mode provided the
remote station supports this operating mode. Alternatively the short
guard mode can be switched off.
Frame aggregation
Frame aggregation is used to combine several data packets (frames) into
one large packet and transmit them together. This method serves to
reduce the packet overhead, and the data throughput increases.
Frame aggregation is not particularly suited to time critical data transmission such as voice over IP.
5.2.4
Configuring 802.11n parameters
You can find 802.11n parameter configuration for the wireless LAN module in
LANconfig under Wireless LAN General Physical WLAN Settings Radio.
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You can find these parameters in WEBconfig or Telnet under Expert Configuration Setup Interfaces WLAN Radio Settings.
EN
You can find 802.11n parameter configuration for individual wireless LAN
networks in LANconfig under Wireless LAN General Logical WLAN
Settings Transmission.
You can find these parameters in WEBconfig or telnet under Expert Configuration Setup Interfaces WLAN Transmission.
5.3
Point-to-point connections
LANCOM Access Points can serve not only as central stations in a wireless network, they can also operate in point-to-point mode to bridge longer distances. For example, they can provide a secure connection between two
networks that are several kilometers apart — without direct cabling or expensive leased lines.
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BUILDING
BUILDING
ACCESS POINT
EN
ANTENNA
WLAN Router
ANTENNA
BUILDING
ANTENNA
ACCESS POINT
When using Access Points and appropriately polarized antennas in accordance with IEEE 802.11n two wireless links can be established simultaneously
between the end points of a point-to-point connection. This allows higher
data throughput to be achieved or greater distances to be covered than when
using other standards.
BUILDING
MIMO AP 802.11n
BUILDING
POLARIZATION
DIVERSITY
POLARISATION
DIVERSITY
MIMO AP 802.11n
Depending on the WLAN standard and WLAN antenna being used, the following data-throughput rates can be achieved::
Access Point
Antenna
Data throughput
Range
802.11n indoor AP
Directional antenna with 9° beam
spread, surge protection, 10m cable
brutto 240Mbps
1km
802.11n indoor AP
Directional antenna with 9° beam
spread, surge protection, 10m cable
brutto 15Mbps
8,9km
802.11n outdoor AP
Directional antenna with 9° beam
spread, surge protection, 2m cable
brutto 240Mbps
2,1km
802.11n outdoor AP
Directional antenna with 9° beam
spread, surge protection, 2m cable
brutto 15Mbps
18km
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Access Point
Antenna
Data throughput
Range
802.11a indoor AP
Directional antenna with 9° beam
spread, surge protection, 10m cable
brutto 54Mbps
0,4km
802.11a indoor AP
Directional antenna with 9° beam
spread, surge protection, 10m cable
brutto 6Mbps
6km
802.11a outdoor AP
Directional antenna with 9° beam
spread, surge protection, 2m cable
brutto 54Mbps
1,3km
802.11a outdoor AP
Directional antenna with 9° beam
spread, surge protection, 2m cable
brutto 6Mbps
13km
802.11g indoor AP
Directional antenna with 30° beam
spread, surge protection, 10m cable
brutto 54Mbps
0,08km
802.11g indoor AP
Directional antenna with 30° beam
spread, surge protection, 10m cable
brutto 6Mbps
1km
802.11g outdoor AP
Directional antenna with 30° beam
spread, surge protection, 2m cable
brutto 54Mbps
0,28km
802.11g outdoor AP
Directional antenna with 30° beam
spread, surge protection, 2m cable
brutto 6Mbps
2,5km
EN
Chapter 5: Advanced wireless LAN configuration
Highly optimized wireless bridges based on IEEE 802.11n are capable of high
data transfer rates even over long distances.
The behavior of an access point when exchanging data with other access
points is defined in the "Point-to-point operation mode".
Off: The access point only communicates with mobile clients
To: The access point can communicate with other access points and with
mobile clients
Exclusive: The access point only communicates with other base stations
In the 5 -GHz band, the automatic search for vacant WLAN channels can lead
to several simultaneous test transmissions from multiple access points, with
the result that they do not find each other. This stalemate situation can be
avoided with the appropriate "Channel selection scheme":
Master: This access point takes over the leadership when selecting a free
WLAN channel.
Slave: All other access points will search for a channel until they have
found a transmitting Master.
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SLAVE
ANTENNE
SLAVE
ANTENNE
EN
MASTER
ANTENNE
Thus it is recommended for the 5 GHz band that one central access point
should be configured as 'Master' and all other point-to-point partners should
be configured as 'Slave'. In the 2.4 GHz band, too, this setting simplifies the
establishment of point-to-point connections if the automatic channel search
is activated.

5.3.1
It is imperative that the channel selection scheme is configured correctly if the point-to-point connections are to be encrypted with
802.11i/WPA (a master as authentication server and a slave as client).
Geometric dimensioning of outdoor wireless network links
The following basic questions must be answered when designing wireless
links:
Which antennas are necessary for the desired application?
How do the antennas have to be positioned to ensure problem-free connections?
What performance characteristics do the antennas need to ensure sufficient data throughput within the legal limits?
Selection of antennas using the LANCOM Antenna Calculator
You can use the LANCOM Antenna Calculator to calculate the output power
of the access points as well as the achievable distances and data rates. The
program can be downloaded from our Web site at www.lancom.eu.
After selecting your components (access points, antennas, lightning protection and cable) the calculator works out the data rates, ranges, and the
antenna gain settings that have to be entered into the access point.
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Please note that when using 5 GHz antennas additional technologies
such as dynamic frequency selection (DFS) may be stipulated depending on the country of use. The operator of the wireless LAN system is
responsible for ensuring that local regulations are met.
EN

Positioning the antennas
Antennas do not broadcast their signals linearly, but within an angle that
depends on the model in question. The spherical expansion of the signal
waves produces amplification or interference of the effective power output at
certain distances along the connection between the transmitter and receiver.
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The areas where the waves amplify or cancel themselves out are known as
Fresnel zones.
EN

Protecting the components employed from the consequences of
lightning strikes and other electrostatic influences is one of the
most important aspects to be considered when designing and
installing wireless LAN systems for outdoor use. Please refer to the
appropriate notes on →'Lightning and surge protection' as otherwise LANCOM Systems cannot provide any guarantee for damage
to LANCOM and AirLancer components.
Information on the installation of WLAN systems for outdoor
deployment is available in the 'LANCOM Outdoor Wireless Guide'.
Radius R
Fresnel zone 3
Fresnel zone 2
Fresnel zone 1
Distance d
ANTENNE
ZENTRALE
WLAN Router
ANTENNE
INDUSTRIE
WLAN Router
INDUSTRIE
The Fresnel zone 1 must remain free from obstruction in order to ensure that
the maximum level of output from the transmitting antenna reaches the receiving antenna. Any obstructing element protruding into this zone will significantly impair the effective signal power. The object not only screens off a
portion of the Fresnel zone, but the resulting reflections also lead to a significant reduction in signal reception.
The radius (R) of Fresnel zone 1 is calculated with the following formula assuming that the signal wavelength (λ) and the distance between transmitter
and receiver (d) are known.
R = 0.5 * √ (λ * d)
The wavelength in the 2.4 GHz band is approx. 0.125 m, in the 5 GHz band
approx. 0.05 m.
Example: With a separating distance of 4 km between the two antennae, the
radius of Fresnel zone 1 in the 2.4-GHz band is 11 m, in the 5-GHz band 7 m.
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To ensure that the Fresnel zone 1 remains unobstructed, the height of the
antennas must exceed that of the highest obstruction by this radius. The full
height of the antenna mast (M) should be as depicted:
Fresnel zone 1
Radius R
ANTENNE
EN
ANTENNE
Security: 1m
Obstruction height H
ZENTRALE
INDUSTRIE
WLAN Router
WLAN Router
INDUSTRIE
Earth's curvature E
M = R + 1m + H + E (earth's curvature)
The allowance for the curvature of the earth (E) can be calculated at a distance
(d) as E = d² * 0.0147 – i.e. at a distance of 8 km this is almost 1m
Example: With a distance of 8 km between the antennae, the result in the
2.4-GHz band is a mast height above the level of the highest obstruction of
approx. 13 m, in the 5-GHz band 9 m.
Antenna power
The power of the antennas must be high enough to ensure acceptable data
transfer rates. On the other hand, the country-specific legal regulations regarding maximum transmission power should not be exceeded.
The calculation of effective power considers everything from the radio module
in the transmitting access point to the radio module in the receiving access
point. In between there are attenuating elements such as the cable, plug connections or simply the air transmitting the signals and amplifying elements
such as the external antennas.
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Amplification with
antenna gain
Free-space loss
Amplification with
antenna gain
EN
ANTENNE
SA-5L
ANTENNE
Loss through
cable, plugs and
lightning protec-
Output power of the
radio module
ZENTRALE
5.3.2
Loss through
cable, plugs and
lightning protec-
SA-5L
Input signal at the
radio module
WLAN Router
WLAN Router
INDUSTRIE
Antenna alignment for P2P operations
The precise alignment of the antennas is of considerable importance in establishing P2P connections. The more central the receiving antenna is located
in the "ideal line" of the transmitting antenna, the better are the actual performance and the effective bandwidth . If the receiving antenna is outside
of this ideal area, however, significant losses in performance will be the result
.
ANTENNE
ANTENNE
ANTENNE
VERWALTUNG

WLAN Router
ACCESS POINT
PRODUKTION
You can find further information on the geometrical design of wireless
paths and the alignment of antennas with the help of LANCOM software in the LCOSreference manual.
The current signal quality over a P2P connection can be displayed on the
device's LEDs or in the LANmonitor in order to help find the best possible
alignment for the antennas.
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EN
The display of signal quality on the LEDs must be activated for the wireless
LAN interface (LANconfig: Wireless LAN General Physical WLAN
settings Operation). The faster the LED blinks the better the connection
(a blinking frequency of 1 Hz represents a signal quality of 10 dB, double the
frequency indicates that the signal strength is twice as high).
In LANmonitor the connection quality display is opened with the context
menu. Right-clicking with the mouse on 'Point-to-point' activates the option
'Adjusting Point-to-Point WLAN Antennas...'

The 'Point-to-point' entry is only visible in the LANmonitor if the
monitored device has at least one base station defined as a remote
site for a P2P connection (LANconfig: Wireless LAN General Physical WLAN settings Point- to- Point).
In the dialog for setting up point-to-point connections, LANmonitor prompts
for the information required to establish the P2P connection:
Is the P2P connection configured at both ends (remote base station defined with MAC address or station name)?
Is the point-to-point mode of operation activated?
Which access point is to be monitored? All of the base stations defined as
P2P remote sites in the device concerned can be selected here.
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Are both antennas approximately aligned? The basic P2P connection has
to be working before fine-tuning can be performed with the aid of
LANmonitor.
EN
Once signal monitoring has commenced, the P2P dialog displays the absolute
values for the current signal strength and the maximum value since starting
the measurement. The development of the signal strength over time and the
maximum value are displayed in a diagram, too.
Initially only one of the two antennas should be adjusted until a maximum
value is achieved. This first antenna is then fixed and the second antenna is
then adjusted to attain the best signal quality.
5.4
Measuring wireless bridges
After planning and installation, the wireless bridge can be analyzed to determine the actual data throughput. Further information about the available
tools and taking measurements can be found in the LANCOM Techpaper "The
performance of outdoor P2P connections", available as a download from
www.lancom.eu.
5.4.1
Configuration of P2P connections
In the configuration of point-to-point connections, entries have to be made
for the point-to-point operation mode and the channel selection scheme,
along with the MAC addresses or station names of the remote sites.
Configuration with
LANconfig
70
For configuration with LANconfig you will find the settings for P2P connections under the configuration area 'Interfaces' on the 'Wireless LAN' tab.
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
The configuration of the P2P connections can also be carried out with
the WLAN Wizards in LANconfig.
Activate the suitable point-to-point operation mode here and set the
channel selection scheme to either 'Master' or 'Slave'. If the peers of the
P2P connections are to be identified via their station names, then enter a
unique name for this WLAN station.

For models with multiple WLAN modules, the station name can be
entered separately for each physical WLAN interface.
Close the physical WLAN settings and open the list of Point- to-point
partners. For each of the maximum of six P2P connections, enter either
the MAC address of the WLAN card at the remote station or enter the
WLAN station's name (depending on the chosen method of identification).
71
EN
Click on the button Physical WLAN settings to open the corresponding
WLAN interface and select the tab for 'Point-to-Point'.
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Chapter 5: Advanced wireless LAN configuration

Please observe that only the MAC addresses of the WLAN cards at the
other end of the connections are to be entered here! Not the access
point's own MAC address, and not the MAC addresses from any other
interfaces that may be present in the access points.
You will find the WLAN MAC address on a sticker located under each of the
antenna connectors. Only use the string that is marked as the "WLAN MAC"
or "MAC-ID". The other addresses that may be found are not the WLAN MAC
address but the LAN MAC address.
Alternatively you will find the MAC addresses for the WLAN cards in the
devices under WEBconfig, Telnet or a terminal program under the following
paths:
72
Configuration tool
Menu/Table
WEBconfig
Expert configuration Status WLAN-statistics Interface-statistics
Terminal/Telnet
Status/WLAN-statistics/Interface-statistics
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5.4.2
Under WEBconfig or Telnet you can set the settings for the point-to-point
connections under the following paths:
Configuration tool
Menu/Table
WEBconfig
Expert configuration Setup Interfaces WLAN-Interfaces Interpoint-Settings
Terminal/Telnet
cd /Setup/Interfaces/WLAN-Interfaces/
Interpoint-Settings
EN
Configuration with
WEBconfig or Telnet
Security for point-to-point connections
IEEE 802.11i can be used to attain a significant increase in the security of
WLAN point-to-point connections. All of the advantages of 802.11i such as
the simple configuration and the powerful encryption with AES are thus available for P2P mode, as are the improved security of the passphrase from the
LANCOM Enhance Passphrase Security (LEPS).
Encryption with 802.11i/WPA
To activate the 802.11i encryption for a correctly configured P2P connection,
adjust the settings for the first logical WLAN network in the appropriate
WLAN interface (i.e. WLAN-1 if you are using the first WLAN module for the
P2P connection, WLAN-2 if you are using the second module, e.g. as with an
access point with two WLAN modules).
Activate the 802.11i encryption.
Select the method '802.11i (WPA)-PSK'.
Enter the passphrase to be used.

The passphrases should consist of a random string at least 22 characters long, corresponding to a cryptographic strength of 128 bits.
When set as P2P Master, the passphrase entered here will be used to check
the Slave's authorization to access. When set as P2P Slave, the access point
transfers this information to register with the remote site.
Configuration with
LANconfig
For configuration with LANconfig you will find the encryption settings under
the configuration area 'Wireless LAN' on the '802.11i/WEP' tab.
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Chapter 5: Advanced wireless LAN configuration
Configuration with
WEBconfig or Telnet
The encryption settings for the individual logical WLAN networks can be
found under WEBconfig or Telnet under the following paths:
Configuration tool
Menu/Table
WEBconfig
Expert configuration Setup Interfaces WLAN-Interfaces Encryption-Settings
Terminal/Telnet
/Setup/Interfaces/WLAN-Interfaces/Encryption-Settings
LEPS for P2P connections
A further gain in security can be attained by additionally using LANCOM
Enhanced Passphrase Security (LEPS) which involves the matching of MAC
address and passphrase.
LEPS can be used to secure single point-to-point (P2P) connections with an
individual passphrase. Even if an access point in a P2P installation is stolen
and the passphrase and MAC address become known, all other WLAN connections secured by LEPS remain secure.
When using LANconfig for the configuration, you enter the passphrases of the
stations approved for the WLAN in the configuration area 'Wireless LAN' on
the 'Stations' tab under the button Stations.
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Chapter 5: Advanced wireless LAN configuration
Configuration with
WEBconfig or Telnet
5.5
The access list for the matching of MAC addresses to the passphrases (LEPS)
can be found under WEBconfig or Telnet under the following paths:
Configuration tool
Menu/Table
WEBconfig
Expert configuration Setup WLAN-module Access-list
Terminal/Telnet
Setup/WLAN-module/Access-list
Client mode
To connect individual devices with an Ethernet interface into a wireless LAN,
LANCOM devices with a WLAN module can be switched to "client mode",
whereupon they act as conventional wireless LAN adapters and not as access
points (AP). The use of client mode therefore allows devices fitted with only
an Ethernet interface, such as PCs and printers, to be integrated into a wireless LAN.
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DRUCKER
EN
WLAN device in
client mode
ACCESS POINT
WLAN device in
client mode
SERVER
ACCESS POINT
LAN
PC
ACCESS POINT
WLAN device in
AP mode
LAPTOP/W-LAN

5.5.1
Multiple WLAN clients can register with a WLAN device in AP mode,
which is not the case for a WLAN device in client mode.
Client settings
For LANCOM Access Points and LANCOM Wireless Routers in client mode,
further settings/client behavior can be configured from the 'Client mode' tab
under the settings for the physical interfaces.

The configuration of the client settings can also be carried out with
the WLAN Wizards in LANconfig.
To edit the settings for client mode in LANconfig, go to the 'Client mode'
tab under the physical WLAN settings for the desired WLAN interface.
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In 'Scan bands', define whether the client station scans just the 2.4 GHz,
just the 5 GHz, or all of the available bands to locate an access point.
5.5.2
Configuration tool
Menu/Table
WEBconfig
Expert configuration Setup Interfaces WLAN Client
modes
Terminal/Telnet
Setup/Interfaces/WLAN/
Client modes
Set the SSID of the available networks
In the WLAN clients, the SSIDs of the networks to which the client stations are
to connect must be entered.
To enter the SSIDs, change to the 'General' tab under LANconfig in the
'Wireless LAN' configuration area. In the 'Interfaces' section, select the
first WLAN interface from the list of logical WLAN settings.
Enable the WLAN network and enter the SSID of the network the client
station should log onto.
77
EN
Under WEBconfig or Telnet the settings for client mode can be found
under the following paths:
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Under WEBconfig or Telnet the network settings for the logical WLAN
interfaces can be found under the following paths:
Menu/Table
WEBconfig
Expert configuration Setup Interfaces WLAN Network
Terminal/Telnet
Setup/Interfaces/WLAN/
Network settings
EN
Configuration tool
5.5.3
Encryption settings
For access to a WLAN, the appropriate encryption methods and key must be
set in the client station.
To enter the key, change to the '802.11i/WEP' tab under LANconfig in the
'Wireless LAN' configuration area. From 'WPA / private WEP settings',
select the first WLAN interface from the list of logical WLAN settings.
Enable encryption and match the encryption method to the settings for
the access point.
In WLAN client operating mode, the LANCOM Access Points and LANCOM
Wireless Routers can authenticate themselves to another access point
using EAP/802.1X. For this, select the desired client EAP method here.
Note that the selected client EAP method must match the settings of the
access point that the device is attempting to log onto.

78
Depending on the EAP method, the appropriate certificates must be
stored in the device.
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Configuration tool
Call
WEBconfig, Telnet
Expert configuration > Setup > Interfaces > WLAN > Encryption > WLAN 1
EN
For TTLS and PEAP - the EAP/TLS root certificate only; the key is entered as a combination username:password.
For TLS in addition; the EAP/TLS device certificate including the private
key.
Under WEBconfig or Telnet the network settings for the logical WLAN
interfaces can be found under the following paths:
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6 Setting up Internet access
EN
The LANCOM provides a central point of Internet access for all of the computers in the LAN. For models not equipped with a WAN connector, a LAN interface is configured as a DSLoL connector and is connected to a compatible
ADSL modem.
INTERNET
HEADQUARTER
SERVER
LAN
ROUTER
GATEWAY
Does the Setup Wizard know your Internet provider?
The Wizard is preset with access data for the principal Internet providers in
your country and offers you a selection list. If you find your Internet provider
in this list, then you generally do not have to enter any additional parameters
to set up your Internet access. All that is required is the authentication data
as supplied to you by your Internet provider.
Internet provider unknown
If the list in the Setup Wizard does not contain your provider, you will be asked
step-by-step for all of the necessary data. This access data will have been supplied to you by your Internet provider.
Other connection options
In addition you can use the Wizard to activate or deactivate additional options
(if supported by your Internet provider):
Billing by time or flatrate – select the method by which you are billed by
your Internet provider.
In case of billing by time, you can set the LANCOM to cut connections
automatically if no data flows for a certain time (the hold time).
You can also set up line polling that detects inactive remote stations
very quickly and, in such cases, can close the connection before the
hold time expires.
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In case of flatrate billing you can also set up line polling to monitor
the function of the remote station.
Apart from that you can opt to keep flatrate connections permanently
active ("keep-alive"). In case a connection should fail, it is re-established automatically.
The Internet Connection Wizard
EN
6.1
6.1.1
Instructions for LANconfig
Mark your device in the selection window. From the command line, select
Extras Setup Wizard.
In the selection menu, select the Setup Wizard, Set up Internet connection and confirm the selection with Next.
In the following windows you select your country, your Internet provider
if possible, and you enter your access data.
Depending on availability the Wizard provides further options for your
Internet connection.
The Wizard will inform you as soon as the entries are complete. Close the
configuration with Finish.
LANconfig: Fast activation of the Setup
Wizards
The fastest way of starting the Setup Wizards
under LANconfig is to use the command button
in the button bar.
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6.1.2
Instructions for WEBconfig
Select the entry Set up Internet connection from the main menu.
In the following windows you select your country, your Internet provider
if possible, and you enter your access data.
EN
Depending on availability the Wizard provides further options for your
Internet connection.
The wizard will inform you as soon as the entries are complete. Close the
configuration with Finish.
6.2
The Firewall Wizard
Your LANCOM features a stateful inspection firewall and firewall filter that
provides effective protection from the Internet for your LAN. The core concept
of the stateful inspection firewall is that the only data transfers that are considered to be valid are those implemented by the protected device itself. All
access attepts that were not requested from within the local network are invalid.
The Firewall Wizard assists you to generate new rules for the firewall quickly
and conveniently.
More information on your LANCOM's firewall and its configuration are available in the reference manual.
6.2.1
LANconfig Wizard
Mark your LANCOM in the selection window. From the command line,
select Extras Setup Wizard.
In the selection menu, select the Setup Wizard, Configure firewall and
confirm the selection with Continue.
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LANCOM L-300 Access Point Serie
Chapter 6: Setting up Internet access
In the windows that follow you select the services/protocols that the rule
is to relate to. In the next step you define the source and destination stations that the rule applies to, and the actions that are to be carried out by
the rule on a data packet.
The wizard will inform you as soon as the entries are complete. Close the
configuration with Finish.
6.2.2
Configuration under WEBconfig
WEBconfig provides the option of checking and altering the parameters for
Internet access under Configuration Firewall / QoS Rules Rule
table.
83
EN
Finally the new rule is given a name, it is activated, and you define whether further rules are to be considered when the rule acts on a data
packet.
LANCOM L-300 Access Point Serie
Chapter 7: Options and accessories
7 Options and accessories
Your LANCOM device has numerous extensibilities and the possibility to use a
broad choice of LANCOM accessories. You find in this chapter information
about the available accessories and how to use them with your base station.
EN
The range of the base station can be increased by optional antennas of
the AirLancer series and can be adapted to special conditions of environs.
With the LANCOM Public Spot Option option it is possible to extend the
LANCOM for additional billing and accounting functions in order to
upgrade it to a Wireless Public Spot.
7.1
Optional AirLancer Extender antennas
AirLancer Extender antennas are capable of extending the operating range of
the devices, or of adapting access point coverage to local conditions. An overview of the supported antennas is available from the LANCOM Web site under
www.lancom.eu.
7.1.1


You will also find further information on calculating the best configuration for AirLancer Extender antennas and third-party antennas that
you wish to connect to the LANCOM under www.lancom.eu.

For internal lightning protection, the surge adapter AirLancer
Extender SA-5L is always necessary—the AirLancer Extender SA-5L
is mounted between the Access Point and the antenna, as close to the
antenna as is possible.

Antennas are only to be attached or changed when the device is switched off. Mounting or demounting antennas while the device switched on may cause the destruction of the WLAN module!
When assembling separately purchased mobile radio antennas please
note that the maximum allowed transmission power of the wireless
LAN according to EIRP in the country in question may not be exceeded. The system operator is responsible for adhering to the threshold
values.
Antenna diversity
The transmission of radio signals can suffer from significant signal losses
because of reflection and scatter, among other reasons. In some areas, the
84
LANCOM L-300 Access Point Serie
Chapter 7: Options and accessories
Transmission quality can be improved with so-called "diversity" methods. The
principle of "diversity" methods relies on the fact that a transmitted signal is
often received multiple times (generally twice). With appropriate processing,
these signals can be re-combined into a single signal. The most common
methods are space diversity and polarization diversity. LANCOM Systems supplies various polarization diversity antennas for connection to LANCOM
devices. These models enable two orthogonally polarized signals to be received with a single antenna. Further information about this technique is available in our "Polarization Diversity" techpaper.
7.1.2
Not for LANCOM L305agn Wireless
Installing the AirLancer Extender antennas
The following diversity antennas are available as accessories for the L-300
Access Points:
AirLancer Extender O-D80g (2.4 GHz band ), item no. 61221
AirLancer Extender O-D60a (5 GHz), item no. 61222
AirLancer Extender O-D9a (5 GHz), item no. 61224

Before mounting external antennas, please observe the information
on lightning protection in the LANCOM Outdoor Wireless Guide (supplied or available as a download from www.lancom.eu). Mounting
antennas without adequate lightning protection could lead to serious
damage to the access point and the network infrastructure connected
to it.
To install an optional AirLancer antenna, switch the device off by unplugging
the power cable. Now carefully unplug the three diversity antennas from the
back by unscrewing them. Connect the AirLancer antennas to the antenna
connectors marked 'ANT 1' and 'ANT 2'. With a LANCOM L-315agn dual
85
EN
interaction with the reflected radio waves can cause a drop in signal strength,
or even cause it to be cancelled out completely.
LANCOM L-300 Access Point Serie
Chapter 7: Options and accessories
Wireless, 1 + 3 are always used. External antennas cannot be connected to
Antenna 2.
EN

Please note the following when connecting antennas:
Antenna connector 1 must always be used. Depending on the
model, mounting and cabling, the second antenna may be connected either to connector 2 or connector 3.
The configuration of the device software must agree with the actual
antenna connections.
LANCOM L-310agn
Wireless
Ant 1
Ant 2
Ant 3
Reset
ETH
WPS
Config (COM)
LANCOM L-315agn
dual Wireless
WLAN 2 - Ant 3
WLAN 1 - Aux
WLAN 2 - Ant 2 internal
WLAN 2 - Ant 1
Reset
ETH 2
86
ETH 1
Config (COM)
WLAN 1 - Main
LANCOM L-300 Access Point Serie
Chapter 7: Options and accessories
LANCOM Public Spot Option
Wireless Public Spots are publicly accessible areas where users can use their
own mobile computers to access a wireless network (such as a company network or the Internet).

Please note that operating a L-300 Access Point with the LANCOM
Public Spot Option (also referred to as a HotSpot) can be subject to
legal regulation in your country. Before installing a L-300 Access
Point, please inform yourself about any applicable regulations.
More information on this subject is available in our white paper
"Public Spot - Rechte und Pflichten eines Betreibers" available for
download from www.lancom.eu.
Wireless LAN technology is ideal for offering wireless Internet services to the
public in locations such as airports, railway stations, restaurants or cafes via
so-called HotSpots. The LANCOM Public Spot Option is intended for operators
of public wireless networks. It enables the easy installation and maintenance
of public HotSpots by providing LANCOM Access Points and LANCOM Routers
with additional functions for authentication and billing for public Internet services.
Authentication and billing for individual users is implemented with userfriendly Web pages, enabling client PCs with a WiFi-certified wireless card
(el.g. AirLancer) and standard Internet browser to go directly online.
The LANCOM Public Spot Option is the ideal solution for public wireless LAN.
Wireless LAN are very well suited for company networks and for wireless networking in the home. However, for public access services the standard setup
lacks important mechanisms for authentication and billing of individual users
(AAA — authentication, authorization, accounting). This is remedied by the
LANCOM Systems Open User Authentication (OUA), the core component of
the LANCOM Public Spot Option. OUA implements the authentication of all
wireless clients by user name and password. It checks the authorization of
each user with a RADIUS server. Accounting data (online time, volumes) on a
per user and per session basis can be passed on to the central RADIUS server.
All the client PC needs is a wireless card (el.g. AirLancer), TCP/IP, and an Internet browser. No further software is required. The Public Spot Option is optimally suited for setting up wireless Internet access services in hotels,
87
EN
7.2
LANCOM L-300 Access Point Serie
Chapter 7: Options and accessories
restaurants, cafes, airports, railway stations, exhibition grounds or universities.
Authentication
Authorization,
accounting
Service
provider
RADIUS
server
EN
Mobile users
RADIUS
HTTP/
HTTPS
Internet
Router
The LANCOM Public Spot Option equips an access point with these functions
and upgrades it to a wireless Public Spot.
88
LANCOM L-300 Access Point Serie
Chapter 8: Troubleshooting
8 Troubleshooting
In this chapter, you will find suggestions and assistance for a few common difficulties.
No DSL connection is established
After start-up the router automatically attempts to connect to the DSL provider. During this process, the LAN-link LED will blink green. If successful, the
LED will switch over to steady green. If, however, the connection can't be
established, the LAN-link LED will light up red. The reason for this is usually
one of the following:
Problems with the cabling?
Only the cable provided with your device should be used to connect to DSL.
This cable must be connected to the Ethernet port of your broadband access
device. The LAN link LED must light green indicating the physical connection.
Has the correct transfer protocol been selected?
The transfer protocol is set along with the basic settings. The basic setup wizard will enter the correct settings for numerous DSL providers automatically.
Only if your DSL provider is not listed, you will have to enter manually the protocol being used. In any case, the protocol that your DSL provider supplies you
with should definitely work.
You can monitor and correct the protocol settings under:
8.2
Configuration tool
Run command
LANconfig
Management Interfaces Interface settings WAN Interface
WEBconfig
Expert Configuration Setup Interfaces WAN Interface
DSL data transfer is slow
The data transfer rate of an broadband (Internet) DSL connection is dependent
upon numerous factors, most of which are outside of one's own sphere of
influence. Important factors aside from the bandwidth of one's own Internet
connection are the Internet connection and current load of the desired target.
Numerous other factors involving the Internet itself can also influence the
transfer rate.
89
EN
8.1
LANCOM L-300 Access Point Serie
Chapter 8: Troubleshooting
Increasing the TCP/IP window size under Windows
If the actual transfer rate of a DSL connection is significantly below the fastest
rate listed by the provider, there are only a few possible causes (apart from the
above-mentioned external factors) which may involve one's own equipment.
EN
One common problem occurs when large amounts of data are sent and
received simultaneously with a Windows PC using an asynchronous connection. This can cause a severe decrease in download speed. The cause of this
problem is what is known as the TCP/IP receive window size of the Windows
operating system that is set to a value too small for asynchronous connections.
Instructions on how to increase the Windows size can be found in the Knowledge Base of the support section of the LANCOM web site (www.lancom.eu).
8.3
Unwanted connections under Windows XP
Windows XP computers attempt to compare their clocks with a timeserver on
the Internet at start-up. This is why when a Windows XP in the WLAN is
started, a connection to the Internet is established by the LANCOM.
To resolve this issue, you can turn off the automatic time synchronization on
the Windows XP computers under Right mouse click on the time of day Properties Internet time.
90
LANCOM L-300 Access Point Serie
Chapter 9: Appendix
9 Appendix
Performance and characteristics
LANCOM L-305agn
Wireless
Frequency band
Connections
ETH1
LANCOM L-310agn
Wireless
WLAN module with 2400-2483.5 MHz (ISM) or
5150-5750 MHz or 5725-5825 MHz (UK only)
Two WLAN modules
each with 2400 2483.5 MHz (ISM) or
5150 - 5750 MHz
10/100/1000Base-TX, Autosensing
10/100Base-TX, autosensing
ETH2
WLAN1
LANCOM L-315agn
dual Wireless
EN
9.1
10/100Base-TX, autosensing
3 internal antennas
IEEE 802.11agbn
3 external antenna
connectors (reverse
SMA sockets)
IEEE 802.11agbn
WLAN2
2 external antenna
connectors (reverse
SMA sockets)
IEEE 802.11agb
1 internal antenna
IEEE 802.11agbn
2 external antenna
connectors (reverse
SMA sockets)
IEEE 802.11agbn
Power supply
12V DC via external power supply, or IEEE 802.3af-compliant Power over
Ethernet.
Approved power supply unit:
NEST 12V/1A DC/S Hohlstkr 2.1/5.5mm (RoHS)
LANCOMItem no. 110524
Type designation on the power supply unit "Type: 15.2230S"
Antennas
3 internal antennas.
Three dualband dipole
antennas (supplied).
Four dualband dipole
antennas (supplied).
One internal antenna.
Please respect the restrictions which apply in your country when setting up
an antenna system. For information about calculating the correct antenna
setup, please refer to www.lancom.eu.
Housing
Dimensions 210 mm x 143 mm x 45 mm (B x H x T), robust plastic housing,
stackable, prepared for wall mounting
Conformity
CE conform with EN 301 489-1, EN 301 489-17, EN 60950-1
Approved for radio operation in all EU countries and Switzerland
Notifications
Certifications notified in Austria, Belgium, Cyprus, Czech Republic, Denmark,
Estonia, Finland, France, Germany, Greece, Great Britain, Hungary, Ireland,
Italy, Lapland, Lithuania, Luxembourg, Malta, Netherlands, Poland, Portugal,
Rumania, Slovakia, Slovenia, Spain, Sweden, Switzerland
Environment/Temperature
0 °C to +35 °C at 95 % max. humidity (non condensing)
91
LANCOM L-300 Access Point Serie
Chapter 9: Appendix
LANCOM L-305agn
Wireless
LANCOM L-310agn
Wireless
LANCOM L-315agn
dual Wireless
3-year warranty
Support
Via hotline and Internet
Accessories
LANCOM modem adapter kit for connecting modems (analog or GSM) to
the serial configuration interface (item no. 61500)
LANCOM Rack Mount Option (item no. 61501)
LANCOM LCOS Reference Manual (DE) (item no. 61700)
LANCOM PoE Power Injector, item no. 61502
LANCOM ES-1108P, 8-port switch with 4 PoE ports, item no. 61450
LANCOM ES-2126, 24-port switch, item no. 61452
LANCOM ES-2126P, 24-port switch with 24 PoE ports, item no. 61451
EN
Service
AirLancer Extender O-D9a 2.4/5 GHz outdoor
antenna, item no. 61224
AirLancer Extender O-D60a, 5 GHz outdoor
antenna, item no. 61222
AirLancer Extender O-D80g 2.4 GHz outdoor
antenna, item no. 61221
AirLancer cable NJ-NP 3m antenna-cable
extension, item no. 61230
AirLancer cable NJ-NP 6m antenna-cable
extension, item no. 61231
AirLancer cable NJ-NP 9m antenna-cable
extension, item no. 61232
AirLancer Extender SA-5L lightning protection
(2.4 and 5 GHz), item no. 61553
AirLancer Extender SA-LAN lightning protection LAN cable, item no. 61213
Options
92
LANCOM Service Option (4-year warranty, advance replacement) (item no.
61401)
LANCOM Public Spot Option (authentication and accounting software for
hotspots) (item no. 60642)
LANCOM L-300 Access Point Serie
Chapter 9: Appendix
9.2.1
Only LANCOM
L-315agn dual
Wireless
Contact assignment
Ethernet interface 10/100Base-TX
8-pin RJ45 socket, corresponding to ISO 8877, EN 60603-7
Connector
9.2.2
Nur LANCOM
L-305agn Wireless
und LANCOM
L-310agn Wireless
Pin
IAE
1
T+
2
T-
3
R+
4
PoE/G
5
PoE/G
6
R-
7
PoE/-48 V
8
PoE/-48 V
EN
9.2
LAN/WAN interface 10/100/1000Base-TX, DSL interface
8-pin RJ45 socket, corresponding to ISO 8877, EN 60603-7
Connector
Pin
Fast
ethernet
Gigabit
ethernet
1
T+
BI_DA+*
2
T-
BI_DA-
3
R+
BI_DB+
4
PoE/G
BI_DC+
5
PoE/G
BI_DC-
6
R-
BI_DB-
7
PoE/-48 V
BI_DD+
8
PoE/-48 V
BI_DD-
*BI_DA+ stands for „Bi-directional pair +A“
93
LANCOM L-300 Access Point Serie
Chapter 9: Appendix
9.2.3
Configuration interface (Outband)
8-pin mini-DIN socket
EN
Connector
9.3
Pin
IAE
1
CTS
2
RTS
3
RxD
4
RI
5
TxD
6
DSR
7
DCD
8
DTR
U
GND
Declaration of conformity
LANCOM Systems herewith declares that the devices of the type described in
this documentation are in agreement with the basic requirements and other
relevant regulations of the 1995/5/EC directive.
The CE declarations of conformity for your device are available in the appropriate product area on the LANCOM Systems web site (www.lancom.eu).
9.4
94
LANCOM L-300 Access Point Serie
Index
Numerics
10/100Base-TX
100-Mbit network
802.11i
802.11i/
802.1x
802.3af standard
27, 29
29
21, 45, 46, 47, 50
47
21, 45, 47
29
A
Access point mode
Access-control list
ACL
AES
Anschlüsse
Antenna Calculator
Antenna power
Autosensing
C
Charge limiter
Client mode
Closed Network
Closed network
Configuration access
Configuration cable
Configuration file
Configuration interface
Connector cable
Configuration password
Configuration port
Configuration protection
Connect charge protection
Contact assignment
Configutation interface
LAN interface
Outband
D
Default gateway
9, 24
46
46
47
27
64
67
27, 29, 31
26
75, 76
45
21
39
30
53
23
51
28
38
40
93
94
93
94
43, 52
DFS
65
43
DHCP
20, 36, 39, 43
DHCP server
23
Diversity antennas
DNS
20, 43
DNS server
23
Documentation
5
Download
DSL
39
provider
DSL connection
problems establishing the connection
89
39
DSL transfer protocol
28, 30, 32
DSLoL
65
Dynamic Frequency Selection
65
Dynamic frequency selection
E
EAP
Encryption methods
21, 45, 47
78
F
Firewall
Block stations
Firewall filters
FirmSafe
Firmware
Flatrate
Fresnel zone
20, 21, 52
52
82
22
5
80
66
I
ICMP
Information symbols
Installation
Antennas
LAN
LANtools
Power adapter
52
5
23
31
31
33
32
95
EN
Index
LANCOM L-300 Access Point Serie
EN
Index
Internet access
Authentication data
Flatrate
Internet access setup
Internet provider
IP
Block ports
Filter
IP address
IP masquerading
IP router
IP-Router
IPSec over WLAN
20, 80
80
80
80
80
52
52
36, 37, 53
22, 52
20
20
45
L
LAN
Connector cable
LAN connection
LANCOM Enhanced Passphrase Security
LANCOM Public Spot Option
34, 38,
LANconfig
Starting the Wizards
LANmonitor
LANtools
System requirements
21,
LEPS
M
MAC address filter
Managed mode
Multi SSID
N
NAT – see IP masquerading
Netmask
Network mask
O
Optional antennas
Options and accessories
96
23
29
45
87
40
81
34
24
46
21
9, 24
21
36
37, 52
84
84
P
P2P
Package contents
Password
PAT – see IP masquerading
Point-to-point
point-to-point
Power adapter
Power over Ethernet
R
RADIUS
Remote configuration
Reset switch
Reset the toll protection
Routing table
S
Security
Internet access
Protecting the configuration
Security checklist
self-sufficient
Serial configuration cable
SNMP
Configuration protection
Software installation
SSID
Stateful Inspection Firewall
Stateful-inspection firewall
Status display
ETH
Power
WLAN data
WLAN link
WPS
Statusanzeigen
LAN
LAN Rx/Tx
WAN Status
Wireless Link
46
23
38, 39
46, 61
19, 20
23, 27, 28
29
21, 47
39
28
26
52
45
45
50
9, 24
30
51
33
77
20
82
27
25, 26
27
26
27
27
27
27
26
LANCOM L-300 Access Point Serie
Index
T
TCP
TCP/IP
Settings
Settings to PCs in the LAN
Windows size
TCP/IP configuration
Fully automatic
Manual
TCP/IP filter
Telnet
TFTP
Transfer protocol
5
23
52
23
36, 39
43
90
36
36, 37
21, 52
52
52
89
U
UDP
52
W
WEBconfig
24
System requirements
21, 45, 47, 50
WEP
27, 28
WiFi Protected Setup
Wireless LANs
9
Operating modes
WLAN
77
Bands scanned
76
Client mode
21, 45, 46, 47, 50
WPA
28
WPS
97
EN
Support
System requirements

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