Hirschmann BAT-R User Manual

User Manual

Installation
Open Dual-Band Industrial Access-Point / Client / Access-

Bridge
OpenBAT-Family: BAT-R

Installation BAT-R

Release 09 03/2017

Technical Support

https://hirschmann-support.belden.eu.com

The naming of copyrighted trademarks in this manual, even when not specially indicated, should
not be taken to mean that these names may be considered as free in the sense of the trademark
and tradename protection law and hence that they may be freely used by anyone.

© 2017 Hirschmann Automation and Control GmbH

Manuals and software are protected by copyright. All rights reserved. The copying, reproduction,
translation, conversion into any electronic medium or machine scannable form is not permitted,
either in whole or in part. An exception is the preparation of a backup copy of the software for
your own use.

The performance features described here are binding only if they have been expressly agreed
when the contract was made. This document was produced by Hirschmann Automation and
Control GmbH according to the best of the company's knowledge. Hirschmann reserves the right
to change the contents of this document without prior notice. Hirschmann can give no guarantee
in respect of the correctness or accuracy of the information in this document.

Hirschmann can accept no responsibility for damages, resulting from the use of the network
components or the associated operating software. In addition, we refer to the conditions of use
specified in the license contract.

You can get the latest version of this manual on the Internet at the Hirschmann product site
(www.hirschmann.com).

Hirschmann Automation and Control GmbH
Stuttgarter Str. 45-51
72654 Neckartenzlingen
Germany

Installation BAT-R 20.03.2017

Contents

Safety instructions 6

About this manual 20

Key 21

1 Description 22

1.1 General description 22

1.2 Device name and product code 23

1.3 Device view 27

1.4 Power supply 28

1.4.1 Supply voltage with the characteristic value C 29

1.4.2 Supply voltage with the characteristic value K 29

1.4.3 Supply voltage with the characteristic value P 29

1.4.4 Supply voltage with the characteristic value W 29

1.5 Ethernet ports 30

1.5.1 Gigabit combo port 30

1.5.2 10/100/1000 Mbit/s twisted-pair connection (optional) 31

1.5.3 Pin assignments 31

1.6 Connections for antennas 33

1.7 Display elements 33

1.7.1 Meaning of the LEDs 33

1.7.2 Device state 33

1.7.3 Port status 34

1.8 Management interfaces 35

1.8.1 V.24 interface (external management) 35

1.8.2 USB interface 36

1.9 Signal contact 37

1.10 Reset button 37

2 Installation 38

2.1 Checking the package contents 38

2.2 Installing and grounding the device 39

2.2.1 Installing the device onto the DIN rail 39

2.2.2 Mounting on a vertical flat surface 40

2.2.3 Grounding the device 40

2.3 Installing an SFP transceiver (optional) 40

2.4 Installing the antennas 41

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2.5 Connecting the terminal blocks (optional) 42

2.5.1 Supply voltage with the characteristic value C 42

2.5.2 Supply voltage with the characteristic value K 43

2.5.3 Supply voltage with the characteristic value W 44

2.5.4 Signal contact 44

2.6 Operating the device 45

2.6.1 Connecting the power supply through a terminal
block 45

2.6.2 Connecting the power supply through PoE 45

2.7 Connecting data cables 46

2.7.1 Gigabit combo port 46

2.7.2 10/100/1000 Mbit/s twisted-pair connection (optional) 46

3 Making basic settings 47

4 Configuring the transmit power 48

5 Maintenance and service 50

6Disassembly 51

6.1 Removing the device 51

6.2 Removing an SFP transceiver (optional) 51

7 Technical data 52

7.1 General technical data 52

7.2 Dimension drawings 54

7.3 Radio technology 56

7.4 Roaming 56

7.5 Receive sensitivity, transmission power and data rate
according to IEEE 802.11a/b/g/n 57

7.6 Receiver sensitivity, transmit power, and data rate of the
WLAN module version for high-gain antennas (approvals 2,
characteristic value H) according to IEEE 802.11a/b/g/n 59

7.7 EMC and immunity 62

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7.8 Network range 63

7.9 Power consumption/power output 64

8 Scope of delivery, order numbers and

accessories 65

9 Underlying technical standards 67

A Further support 69

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Safety instructions

WARNING

UNCONTROLLED MACHINE ACTIONS

To avoid uncontrolled machine actions caused by data loss, configure all
the data transmission devices individually.
Before you start any machine which is controlled via data transmission, be
sure to complete the configuration of all data transmission devices.

Failure to follow these instructions can result in death, serious injury,
or equipment damage.

 General safety instructions

You operate this device with electricity. Improper usage of the device
entails the risk of physical injury or significant property damage. The
proper and safe operation of this device depends on proper handling
during transportation, proper storage and installation, and careful
operation and maintenance procedures.
 Before connecting any cable, read this document, and the safety

instructions and warnings.

 Operate the device with undamaged components exclusively.
 The device is free of any service components. In case of a damaged

or malfunctioning the device, turn off the supply voltage and return the
device to Hirschmann for inspection.

 Internal fuses are triggered only in the case of a detected error in the

device. In case of damage or malfunction of the device, turn off the
supply voltage and return the device to the plant for inspection.

 Certified usage

 Use the product only for the application cases described in the

Hirschmann product information, including this manual.

 Operate the product only according to the technical specifications.

See “Technical data” on page 52.

 Connect to the product only components suitable for the requirements

of the specific application case.

 Installation site requirements

Restricted access location:

 The location is outside the operator access area.
 The location is accessible to the service personnel even when the

device is switched on.

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Indoor operator access area:

 The location is accessible without tools.
 The person responsible for the area has provided access for the

operator intentionally.

 The operator knows of the access possibilities, regardless of whether

they need a tool.

 Applies to device variants featuring supply voltage with characteristic

value K:

See “Device name and product code” on page 23.

Install this device solely in a switch cabinet or in an operating site with
restricted access, to which maintenance staff have exclusive access.

 Relevant for Europe:

Install the device in a fire enclosure according to EN 60950-1.

In the following exceptional cases, you do not require a fire-protected

shell:

 You are supplying voltage to the device only via PoE.
 You are supplying only 24 V to the device and are using a fuse.

Regarding the properties of this fuse: See “General technical data”

on page 52.

 For use in UL60950-1 conditions:

Install the device in a fire enclosure.

 Device casing

Only technicians authorized by the manufacturer are permitted to open
the casing.
 Never insert pointed objects (narrow screwdrivers, wires, etc.) into the

device or into the connection terminals for electric conductors. Do not
touch the connection terminals.

 Keep the ventilation slits free to ensure good air circulation.
 Install the device in the vertical position.
 At ambient temperatures > 140 °F (60 °C):

The surfaces of the device housing may become hot. Avoid touching
the device while it is operating.

 Qualification requirements for personnel

 Only allow qualified personnel to work on the device.

Qualified personnel have the following characteristics:

 Qualified personnel are properly trained. Training as well as practical

knowledge and experience make up their qualifications. This is the
prerequisite for grounding and labeling circuits, devices, and systems
in accordance with current standards in safety technology.

 Qualified personnel are aware of the dangers that exist in their work.

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 Qualified personnel are familiar with appropriate measures against

these hazards in order to reduce the risk for themselves and others.

 Qualified personnel receive training on a regular basis.

 National and international safety regulations

 Verify that the electrical installation meets local or nationally applicable

safety regulations.

 When installing antennas, observe the regulations of the country in

which you are operating the WLAN device with regard to the general
operating permission and the maximum emission levels.

 Install and operate this equipment with a minimum distance of

19.7 inches (50 cm) between the antenna and your body.

 Grounding the device

Grounding the device is by means of a separate ground connection on the
device.

 Ground the device before connecting any other cables.
 Disconnect the grounding only after disconnecting all other cables.

The overall shield of a connected shielded twisted pair cable is connected
to the ground connector on the front panel as a conductor.

 Lightning protection

 Refer to the information in the “WLAN Outdoor Guide” on “lightening

and overvoltage protector”.

 Install over voltage protector devices on every outdoor Ethernet cable.
 Protect antennas installed outside with lightening protection devices

(e.g. lightening conductors).

 Take lightening protection measures which mitigate the effects of

lightning strikes.

 The installation of the device occurs in accordance with valid

standards (such as VDE 0185 and IEC 62305), and in accordance
with the lightening protection procedures recognized and proven for
the application and the environment.

 Requirements for connecting electrical wires

Before connecting the electrical wires, always verify that the

requirements listed are complied with.

The following requirements apply without restrictions:

 The electrical wires are voltage-free.
 The cables used are permitted for the temperature range of the application case.
 Relevant for North America:

The power cords are suitable for ambient air temperatures of at least 167 °F (75 °C). The
power cord wires are made of copper.

Table 1: Requirements for connecting electrical wires

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 Requirements for connecting the supply voltage

The following requirements apply without restrictions:
All variants All of the following requirements are complied with:

 The supply voltage corresponds to the voltage specified on the type

plate of the device.

 The power supply conforms to overvoltage category I or II.
 The power supply has an easily accessible disconnecting device

(e.g., a switch or a plug). This disconnecting device is clearly
identified. So in the case of an emergency, it is clear which
disconnecting device belongs to which power supply cable.

 The cross-section of the ground conductor is the same size as or

bigger than the cross-section of the power supply cables.

Only for device
variants featuring
supply voltage with
characteristic
value C or W:

Only for device
variants featuring
supply voltage with
characteristic
value K:

The wire diameter of the power supply cable is at least 1 mm² (North
America: AWG16) on the supply voltage input.

The following requirements are alternatively complied with:

Alternative 1 The power supply complies with the requirements

for a limited power source (LPS) as per EN 60950-1.

Alternative 2 Relevant for North America:

The power supply complies with the requirements
as per Class 2

Alternative 3 All of the following requirements are complied with:

 The power supply complies with the

requirements for a safety extra-low voltage
(SELV) as per IEC/EN 60950-1.

 A fuse suitable for DC voltage is located in the

plus conductor of the power supply.
The minus conductor is on ground potential.
Otherwise, a fuse is also located in the minus
conductor.
Regarding the properties of this fuse:

See “General technical data” on page 52.

All of the following requirements are complied with:

 Supply with DC voltage:

A fuse suitable for DC voltage is located in the plus conductor of the
power supply.
The minus conductor is on ground potential. Otherwise, a fuse is also
located in the minus conductor.
Regarding the properties of this fuse:

See “General technical data” on page 52.

The wire diameter of the power supply cable is at least 1 mm² (North
America: AWG16) on the supply voltage input.

 Supply with AC voltage:

A fuse is located in the outer conductor of the power supply.
The neutral conductor is on ground potential at both voltage inputs.
Otherwise, a fuse is also located in the neutral conductor.
Regarding the properties of this fuse:

See “General technical data” on page 52.

The wire diameter of the power supply cable is at least 0.75 mm²
(North America: AWG18) on the supply voltage input.

Table 2: Requirements for connecting the supply voltage

 Enable the supply voltage for the device only when the following

requirements are fulfilled:

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 the housing is closed
 the terminal blocks are wired correctly
 the terminal blocks for the power supply are connected

 For supply voltage connections with protective conductor connection:

First connect the protective conductor before connecting the wires for
the supply voltage.
If your device comprises a 2nd supply voltage connection of this type:
First connect the protective conductor before connecting the wires for
the supply voltages.

 ATEX directive 2014/34/EU – specific regulations for safe

operation

In Ex zone 2, only devices with a corresponding label may be operated.

When operating the BAT-R types with characteristic value G for
approvals 1 (ATEX zone 2), the following applies:

 Never use the supply voltage with characteristic value K in Ex zone 2.

II 3 G Ex nA IIC T4 Gc DEKRA 13ATEX0027 X

–40 °F ... +158 °F (–40 °C ... +70 °C) for temperature range
characteristic value T and E
+32 °F ... +140 °F (0 °C ... +60 °C) for temperature range

characteristic value S

Temperature code T4 Ambient temperature 40 °F ... +158 °F (40 °C ... +70 °C ;

temperature range with characteristic value T and E)
Ambient temperature +32 °F ... +140 °F (0 °C ... +60 °C;

temperature range with characteristic value S)

List of standards EN 60079-0:2012 + A11

EN 60079-15:2010

DO NOT OPEN THE DEVICE WHEN IT IS ELECTRICALLY CHARGED.
THE USB CONNECTOR MUST NOT BE USED WHEN THE DEVICE IS
OPERATED IN EXPLOSIVE HAZARDOUS LOCATIONS.

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Special conditions for safe use

 For characteristic value C and W for supply voltage:

Provisions shall be made to prevent the rated voltage from being
exceeded by transient disturbances of more than 119 V.

 When the temperature under rated conditions exceeds 158 °F (70 °C)

at the cable or conduit entry point, or 176 °F (80 °C) at the branching
point of the conductors, take care that the temperature specification of
the selected cable is in compliance with the actual measured
temperature values.

 Install the modules in a suitable enclosure in accordance with

EN 60079-15 providing a degree of protection of at least IP54
according to EN 60529, taking into account the environmental
conditions under which the equipment will be used.



Relevant for use in explosion hazard areas (Hazardous Locations, Class I, Division 2):

In Ex zone 2, only the devices with a corresponding label may be
operated in explosion hazard areas Class I, Division 2.

When operating the BAT-R types in explosion hazard areas Class I,
Division 2, the following applies:

Class I, Div. 2 Goups A, B, C and D

Temperature code T4 Ambient: 40 °F ... +158 °F (40 °C ... +70 °C; for

characteristic value T and E for temperature range)
Ambient: +32 °F ... +140 °F (0 °C ... +60 °C; for characteristic

value S for temperature range)

List of standards FM3600,

FM3611
CAN/CSA C22.2 No. 0
CAN/CSA C22.2 No. 213

DO NOT OPEN THE DEVICE WHEN IT IS ELECTRICALLY CHARGED.

 Use the device only with mounted impact protection.

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Control Drawing for BAT-R devices according to Class I, Div. 2 Haz. Locations

Rev.: 1 Document No.: 000170957DNR

Page 1 of 2

Ordinary Location, Non-Hazardous Area,

non-explosive atmosphere

Explosive Atmosphere

Class I, Div. 2 Groups A, B, C, D

Hazardous Location

Power Supply unit type W: 18 V DC – 32 V DC

Power Supply unit type C: 18 V DC – 60 V DC

Power Supply unit type K: 88 V AC – 265 V AC or 48 V DC – 320 V DC

The earth conductor must be at least the

same wire size (mm² or AWG) as the

supply conductors.

Relay contacts. Equipment with nonincendive  eld wiring parameters. Polarity is not relevant.

THE RELAY TERMINALS ARE DEPENDENT UPON

THE FOLLOWING ENTITY PARAMETERS:

U

i

= 30 V I

i

= 90 mA L

i

= 1 ȝH C

i

= 2 nF

WARNING! The USB is for temporary connection only, for maintenance use. Do not use,

connect or disconnect unless the area is known to be non-hazardous. Connection or disconnec-

tion in an explosive atmosphere could result in an explosion!

Relay

Relay

P2

P1

USB

BAT-R WLAN Access Point/Client

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Control Drawing for BAT-R devices according to Class I, Div. 2 Haz. Locations

Rev.: 1 Document No.: 000170957DNR

Page 2 of 2

For Use in Hazardous Locations Class I, Division 2 Groups A, B ,C ,D:

Only allowed for BAT-R model No´s. which are individually labelled “FOR USE IN HAZARDOUS LOCATIONS”

Nonincendive field wiring circuits must be wired in accordance with the National Electrical Code (NEC), NFPA 70 , article 501.

WARNING – EXPLOSION HAZARD – SUBSTITUTION OF ANY COMPONENTS MAY IMPAIR SUITABILITY FOR HAZAR-

DOUS LOCATIONS OR EXPLOSIVE ATMOSPHERES.

WARNING – EXPLOSION HAZARD – DO NOT DISCONNECT EQUIPMENT UNLESS POWER HAS BEEN SWITCHED OFF

OR THE AREA IS KNOWN TO BE NONHAZARDOUS.

Notes:

The nonincendive  eld wiring circuit concept allows interconnection of nonincendive  eld wiring apparatus and associated nonincendive  eld

wiring apparatus using any of the wiring methods permitted for unclassi ed locations when certain parametric conditions are met.

Capacity: C

a

or C

0

 C

i

+ C

Cable

;

Inductivity: L

a

or L

0

 L

i

+ L

Cable

Temperature Code: T4

Ambient Temperature rating:

Ta : 0 °C to +60°C for “S” temperature types

Ta: í40°C to +70°C for “T” or “E” temperature types

(Refer to the temperature code of the type designation on the device.)

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 E marking

The labeled devices comply with the regulations contained in the following
European directive(s):

Regulation No 10. of the Economic Commission for Europe of the United

Nations (UN/ECE): Devices with an approval are labeled with the E
type-approval mark.

The optical transceivers M-SFP-SX/LC-EEC und M-SFP-LX/LC-EEC can
be used (relevant for devices with approval characteristic value M).
Devices featuring supply voltage with characteristic value C are not
specified for operation during the motor start phase.

 CE marking

The labeled devices comply with the regulations contained in the following
European directive(s):

2011/65/EU (RoHS)
Directive of the European Parliament and of the Council on the restriction
of the use of certain hazardous substances in electrical and electronic
equipment.

1999/5/EC (R&TTE)
Directive of the European Parliament and the council for radio
installations and telecommunication systems and for the mutual
recognition of their conformity.

This product may be operated in all EU (European Union)

countries under the condition that it has been configured correctly.

In accordance with the above-named EU directive(s), the EU conformity
declaration will be available to the relevant authorities at the following
address:

Hirschmann Automation and Control GmbH
Stuttgarter Str. 45-51
72654 Neckartenzlingen
Germany

The product can be used in living areas (living area, place of business,
small business) and in industrial areas.

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Notes:

 Applies to the operation of devices in the 5.6 to 5.65 GHz band:

Install an antenna with an antenna gain of at least 3 dBi.

 Applies to the operation of devices with antennas having a gain of

more than 8 dBi:
At temperatures lower than 25 °C a power reduction of 4 dB using a
software setting has to be applied. This reduction applies in addition to
the antenna gain setting.

 Applies to the operation of antennas having a gain of more than

18 dBi:
For the operation of 5 GHz indoor channels (channels 36 to 64) a
power reduction of 4 dB using a software setting has to be applied.
This reduction applies in addition to the antenna gain setting.

 Applies to the operation of the BAT-ANT-N-14G-IP23 antenna:

In addition to the antenna cable supplied, the use of the BAT-CLB-2 N
m-f antenna is required.

See “Accessories” on page 65.

The frequency band 5725 MHz to 5875 MHz is subject to special
operation conditions. In Germany the usage of this band is restricted to
commercial public telecommunication services (BFWA - Broadband
Fixed Wireless Access). Registration at the Federal Network Agency is
required. In other European countries the terms of use of the local
frequency regulation authorities need to be followed.

 LED or laser components

LED or LASER components according to IEC 60825-1 (2014):
CLASS 1 LASER PRODUCT
CLASS 1 LED PRODUCT

 FCC note:

This device complies with part 15 of the FCC rules.
Operation is subject to the following two conditions:

 This device may not cause harmful interference, and
 This device must accept any interference received, including

interference that may cause undesired operation.

This equipment has been tested and found to comply with the limits for a
Class B digital device, pursuant to part 15 of the FCC Rules. These limits
are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates, uses
and can radiate radio frequency energy and, if not installed and used in
accordance with the instructions, may cause harmful interference to radio

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communications. However, there is no guarantee that interference will not
occur in a particular installation. If this equipment does cause harmful
interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct
the interference by one or more of the following measures:

 Reposition the receiver antenna or change the angle of the receiver

antenna.

 Increase the separation between the device and the receiver.
 Connect the device to a different outlet on a different power supply

cable from that to which the receiver is connected.

 Consult a specialist retailer or an electronic systems engineer for help.
Changes or modifications not expressly approved by the holder of the
certificate could void the user’s authority to operate this equipment.

Note for the use in the USA and in Canada

The following section applies to BAT-R variants with the characteristic
value US (USA/Canada) for country approvals which are labeled as
follows:

Contains Transmitter Module
FCC ID: U99EWLAN1
IC: 4019A-EWLAN1

This equipment complies with FCC and IC RSS-102 radiation exposure
limits set forth for an uncontrolled environment. Install and operate this
equipment with a minimum distance of 19.7 in (50 cm) (related to a 9 dBi
antenna) between the radiator and your body.

The antenna used for this transmitter must not be co-located with any
other transmitters within a host device, except in accordance with FCC
multi-transmitter product procedures.

This transmitter is restricted to indoor use only within the 5.15 to 5.25 GHz
band to reduce potential for harmful interference to co-channel mobile
satellite systems.

This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe B est conforme à la norme NMB-003
du Canada.

To reduce potential radio interference to other users, the antenna type
and its gain should be so chosen that the equivalent isotropically radiated
power (EIRP) is not more than that permitted for successful
communication.

This device has been designed to operate with the antennas listed below
in point-to-multipoint systems, and having a maximum gain of 9 dBi:

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Antennas operating with this device
model:

BAT-ANT-RSMA-2AGN-R
BAT-ANT-N-3AGN-IP67 Yes Yes Yes
BAT-ANT-N-MiMoDB-5N-IP65 Yes Yes Yes
BAT-ANT-N-MiMo5-9N-IP65 No Yes Yes
BAT-ANT-N-8G-DS-IP65 Yes No No

(1)

Permitted band of operation

2.4 GHz band 5.15 GHz ...

5.25 GHz band

Yes Yes Yes

5.725 GHz ...

5.825 GHz band

The use of antennas missing in this list is strictly prohibited. The required
antenna impedance is 50 .

Note (1): When using 3 antennas type BAT-ANT-RSMA-2AGN-R, you
must align each antenna in another spatial direction (x-y-z) so that one
antenna is arranged vertically to the device and the other two antennas
are arranged at right angles to each other.

Note for the use in the USA and in Canada

The following section applies to BAT-R variants with the characteristic
value US (USA/Canada) for country approvals which are labeled as
follows:

Contains Transmitter Module
FCC ID: U99EWLAN2
IC: 4019A-EWLAN2

This equipment complies with FCC and IC RSS-102 radiation exposure
limits set forth for an uncontrolled environment. This equipment should be
installed and operated with minimum distance of 19.7 in (50 cm) (related
to a 18 dBi antenna) between the radiator and your body.

The antenna used for this transmitter must not be co-located with any
other transmitters within a host device, except in accordance with FCC
multi-transmitter product procedures.

This transmitter is restricted to indoor use only within the 5.15 to 5.25 GHz
band to reduce potential for harmful interference to co-channel mobile
satellite systems.

This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe B est conforme à la norme NMB-003
du Canada.

To reduce potential radio interference to other users, the antenna type
and its gain should be so chosen that the equivalent isotropically radiated
power (EIRP) is not more than that permitted for successful
communication.

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This device has been designed to operate with the antennas listed below
having a maximum gain of 18 dBi:

Antennas operating with this device
model:

BAT-ANT-RSMA-2AGN-R
BAT-ANT-N-3AGN-IP67 Yes Yes Yes
BAT-ANT-N-MiMoDB-5N-IP65 Yes Yes Yes
BAT-ANT-N-MiMo5-9N-IP65 No Yes Yes
BAT-ANT-N-8G-DS-IP65 Yes No No
BAT-ANT-N-MiMo-18N-IP65

(1)

(2)

Permitted band of operation

2.4 GHz band 5.15 GHz ...

5.25 GHz band

Yes Yes Yes

No No Yes

5.725 GHz ...

5.825 GHz band

The use of antennas missing in this list is strictly prohibited. The required
antenna impedance is 50 .

Note (1): When using 3 antennas type BAT-ANT-RSMA-2AGN-R, you
must align each antenna in another spatial direction (x-y-z) so that one
antenna is arranged vertically to the device and the other two antennas
are arranged at right angles to each other.

Note (2): Connect the BAT-ANT-N-MiMo-18N-IP65 antenna to the WLAN
module as follows:

 Connect the antenna port "Ver" with the WLAN antenna port 1.
 Connect the antenna port "+45°" with the WLAN antenna port 2.
 Connect the antenna port "45°" with the WLAN antenna port 3.

 Connect the BAT-ANT-N-MiMo-18N-IP65 in this way exclusively.

Differing connection configurations are illegal.

 Note for the use in the Japan

This note applies to BAT-R variants with the characteristic
value JP (Japan) for country approvals that are labeled as follows:

 "Contains MIC ID: 204-310014"


„5GHz band: この製品は屋内においてのみ使用可能です“

Devices with the characteristic value JP for country approvals are suitable
for usage with the following antennas:

Antennas for operation with this device: Permissible frequency bands

2.4 GHz band 5 GHz band
BAT-ANT-N-3AGN-IP67 Yes Yes
BAT-ANT-RSMA-2AGN-R Yes Yes
BAT-ANT-6ABG-IP65 Yes Yes
BAT-ANT-N-MiMoDB-5N-IP65 Yes Yes
BAT-ANT-N-8G-DS-IP65 Yes No
BAT-ANT-N-9A-DS-IP65 No Yes

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BAT-ANT-N-6G-IP65 Yes No
BAT-ANT-N-5A-IP65 No Yes
BAT-ANT-N-MiMo-9N-IP65 No Yes

The use of antennas missing in this list is prohibited. The 5 GHz band is
restricted to indoor usage.

 Recycling note

After usage, this device must be disposed of properly as electronic waste,
in accordance with the current disposal regulations of your county, state,
and country.

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About this manual

The “Installation” user manual contains a device description, safety
instructions, a description of the display, and the other information that you
need to install the device.

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Key

The symbols used in this manual have the following meanings:

 Listing

 Work step



Subheading

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1 Description

1.1 General description

The devices allow you to set up WLANs (Wireless Local Area Networks) in a
local network. In contrast to a conventional network connection through
copper cables and fiber optic cables, some of the communication is
performed by means of a radio link.

The devices allow you to install a new LAN or expand an existing LAN.
Thanks to their high level of flexibility, the OpenBAT device is suitable for a
wide range of applications. Anywhere that high bandwidths, stable operation
and network security is required, WLAN with these devices provides the ideal
solution.

The devices are dual-band industrial high-performance wireless LAN access
points or clients complying with IEEE 802.11a/b/g/h/n. They provide a high
radio output with a bandwidth of up to 450 Mbit/s. The devices support MIMO
(Multiple Input Multiple Output) and Multipath. The bandwidth is increased by
using the multipath transmission by means of reflections. Each WLAN
module has 3 antennas for sending and receiving, to ensure stable network
coverage with few shadow areas.

You can choose from between a wide range of variants. You have the option
to set up your device individually based on different criteria:

 Access point or client
 Number of WLAN modules
 Number of ports
 Supply voltage range
 Configuration (with or without equipment package)
 Software options
 Temperature range
 Approvals

The BAT-R devices are designed for the special requirements of industrial
automation. They meet the relevant industry standards, provide very high
operational reliability, even under extreme conditions, and also long-term
reliability and flexibility.
The devices work without a fan.

The following installation options are available:

 simply snapping them onto a DIN rail
 Mounting on a vertical flat surface

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You have the option of choosing various media to connect to the terminal
devices and other network components:

 twisted pair cable
 multimode F/O
 singlemode F/O

There are convenient options for managing the device. Administer your
devices via:

 a Web browser
 SSH
 Telnet
 HiDiscovery (Software for putting the device into operation)
 management software (e.g. Industrial HiVision, LANconfig/LANmonitor)
 a V.24 interface (locally on the device)

The devices provide you with a large range of functions, which the manuals
for the operating software inform you about. You can download these
manuals as PDF files from the Internet on the Hirschmann product pages
(www.hirschmann.com).

The Industrial HiVision Network Management software provides you with
additional options for smooth configuration and monitoring:

 ActiveX control for SCADA integration
 Auto-topology discovery
 Browser interface
 Client/server structure
 Event handling
 Event log
 Simultaneous configuration of multiple devices
 Graphical user interface with network layout
 SNMP/OPC gateway

The Hirschmann network components help you ensure continuous
communication across all levels of the company.

1.2 Device name and product code

The device name corresponds to the product code. The product code is
made up of characteristics with defined positions. The characteristic values
stand for specific product properties.

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You have numerous options of combining the device characteristics. You can
determine the possible combinations using the configurator which is
available in the Belden E-Catalog (www.e-catalog.beldensolutions.com) on
the web page of the device.

Item Characteristic Characteri

stic value

1 ... 5 Devices of the OpenBAT

family

6 ... 7 Country approvals

Example:

Singapore
8 Slot 1 W WLAN module
9 Slot 2 W WLAN module

10 Slot 3 9 Not assembled
11 Access point or client A Access Point

12 Supply voltage 1 C Rated voltage range DC

13 Supply voltage 2 C Rated voltage range DC

14 Approvals 1 F Class I, Division 2 Groups A, B, C, D

BAT-R DIN Rail housing

XX

Example:
SG

9 Not assembled

C Client

K Rated voltage range DC

a

P

W Nominal voltage DC

K Rated voltage range DC

W Nominal voltage DC

9 Not present

G ATEX Zone 2
I Substation applications (EN 61850)
K Rail applications (EN 50155)
M Motor vehicles applications (E type-

9 No additional approvals

Description

You can determine the current country
approvals using the configurator (www.e­catalog.beldensolutions.com).

24 V ... 48 V

60 V ... 250 V
Rated voltage range AC

110 V ... 230 V, 50 Hz ... 60 Hz
Rated voltage range DC

36 V ... 57 V

24 V

24 V ... 48 V

60 V ... 250 V
Rated voltage range AC

110 V ... 230 V, 50 Hz ... 60 Hz

24 V

Hazardous Locations

approval mark, ECE No. 10)

Table 3: Device name and product code

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Item Characteristic Characteri

Description

stic value

15 Approvals 2 H WLAN module version for high-gain

antennas

M Motor vehicles applications (E type-

approval mark, ECE No. 10)

9 No additional approvals

16 Mounting A Indoor operator access area

B Indoor service access area

b

c

17 ... 18 Ethernet port 1 O7 Combo port – you can use these ports for

alternative purposes:

 alternatively, depending on device

variant

 Supply voltage with the

characteristic value C and K:
RJ45 socket for 10/100/1000
Mbit/s Twisted Pair connections

 Supply voltage with the

characteristic value P and W:
RJ45 socket for 10/100/1000
Mbit/s PoE PD port

 SFP slot for 1000 Mbit/s F/O port

19 ... 20 Ethernet port 2 T1 RJ45 socket for 10/100/1000 Mbit/s

Twisted Pair connections

99 Not present

21 Temperature range E Extended with Conformal Coating

40 °F ... +158 °F (40 °C ... +70 °C)

K Extended with Conformal Coating and

approvals 1, characteristic value K,
railway applications:
40 °F ... +122 °F (40 °C ... +55 °C)

S Standard

+32 °F ... +140 °F (0 °C ... +60 °C)

T Extended

40 °F ... +158 °F (40 °C ... +70 °C)

22 Software option 1 A VPN-5

BVPN-50
C VPN-100

9 Not present
23 Software option 2 9 Not present
24 Software option 3 A AutoWDS

DPublic Spot

PPRP

9 Not present
25 Configuration Z Equipment package

9 Hirschmann standard
26 Device model H Hirschmann standard

Table 3: Device name and product code

a. The power supply for this type is only via the LAN as a Powered Device according to the

technical standard IEEE 802.3af.

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b. Location for which one of the following conditions apply when one operates it correctly:

- The area is accessible without tools.

- The person responsible for the area has provided access for the operator intentionally.

- The operator knows of the access possibilities, regardless of whether they need a tool.

c. Location outside the operator area to which the service personnel has access, even when

the device is switched on.

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1.3 Device view

1 2 3 4 4a 4b

5

5a

12

6

11

5b

5c

10

5d

7

98

Front view:
on the left: device variants featuring supply voltage with the characteristic value C or K
on the right: device variants featuring supply voltage with the characteristic value W
not shown: supply voltage with the characteristic value P
not shown: supply voltage with the characteristic value W and temperature range with the
characteristic value K

1 WLAN module 1: 3 × reverse SMA connection
2 Optional: WLAN module 2:

3 × reverse SMA connection
3 LED display elements for device status
4 Ethernet port 1

Combo port – you can use these ports for alternative purposes:
4a alternatively, depending on device variant

 Supply voltage with the characteristic value C and K:

RJ45 socket for 10/100/1000 Mbit/s Twisted Pair connections

 Supply voltage with the characteristic value P and W:

RJ45 socket for 10/100/1000 Mbit/s PoE PD port

4b SFP slot for 1000 Mbit/s F/O port

6

6a

6b

6c

6d

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5 Device variants featuring supply voltage with characteristic value C or K

5a Power supply connection 1

 Supply voltage with the characteristic value C

2-pin terminal block

 Supply voltage with the characteristic value K

3-pin terminal block
5b Connection for signal contact 1
5c Optional: Power supply connection 2

 Supply voltage with the characteristic

value C
2-pin terminal block

 Supply voltage with the characteristic

value K
3-pin terminal block

5d For devices with 2 supply voltage

connections:

6 Device variants featuring supply voltage with characteristic value W

6a Connection for signal contact 1

2-pin terminal block

6b Connection for signal contact 2

2-pin terminal block

6c Power supply connection 1

2-pin terminal block

6d Power supply connection 2

2-pin terminal block
7 Connection for protective grounding
8 Locking gate for removing the device
9 V.24 interface
10 Reset button
11 USB interface

ACA21-USB (EEC)

12 Optional:

Ethernet port 2

Connection for signal contact 2

RJ45 socket for 10/100/1000 Mbit/s Twisted
Pair connections

1.4 Power supply

Only for device variants featuring supply voltage with characteristic value C,
K or W:
For redundant and failure-resistant power supply, you have the option of
connecting multiple voltage sources in any combination at the same time.
The device selects the used voltage source automatically.
Switching to a redundant voltage source possibly occurs with a short delay.
If the active power source is lost and another power source takes over the
power supply to the device, the device reboots if necessary to activate the
redundant power supply.

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1.4.1 Supply voltage with the characteristic value C

A 2-pin terminal block is available to supply the device with power.

For further information see “Supply voltage with the characteristic value C”

on page 42.

1.4.2 Supply voltage with the characteristic value K

For the power supply of the device, a 3-pin terminal block is available.

For further information see “Supply voltage with the characteristic value K”

on page 43.

1.4.3 Supply voltage with the characteristic value P

Note: With supply voltage with the characteristic value P, the signal contact

is omitted.

Your device is a PD (powered device). PSE (power sourcing equipment)
connected via a twisted pair cable on the PoE PD port serves as the PoE
power supply voltage. The PoE power supply means that no separate power
supply is required for your device.

For further information see “10/100/1000 Mbit/s PoE PD port” on page 46.

1.4.4 Supply voltage with the characteristic value W

You have the following options to supply your device with voltage:

 Power supply through a terminal block

A 2-pin terminal block is available to supply the device with power.

For further information see “Supply voltage with the characteristic

value W” on page 44.

 Power supply through PoE

Note: For devices with 2 WLAN modules, the option of suppling power via

PoE is unavailable.

Your device is a PD (powered device). PSE (power sourcing equipment)
connected via a twisted pair cable on the PoE PD port serves as the PoE
power supply voltage. The PoE power supply means that no separate
power supply is required for your device.

For further information see “10/100/1000 Mbit/s PoE PD port” on page 30.

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1.5 Ethernet ports

You can connect end devices and other segments to the device ports using
twisted pair cables or optical fibers (F/O).
You find information on pin assigments for making patch cables here:

“Pin assignments” on page 31

1.5.1 Gigabit combo port

You have the option of alternatively connecting a twisted pair cable via a
RJ45 socket or an optical fiber via a SFP transceiver to a combo port.
Only plug a connector or SFP transceiver that you want to use for the data
transmission into the socket of the combo port.

 10/100/1000 Mbit/s PoE PD port

Device variants featuring supply voltage with the characteristic value P
or W have this port exclusively.
The 10/100/1000 Mbit/s PoE PD port offers you the ability to connect
network components according to the IEEE 802.3 10BASE-T/100BASE­TX/1000BASE-T and IEEE 802.3af/at standard.
This port supports:

 Autocrossing (if autonegotiation is activated)
 Autonegotiation
 Autopolarity
 10 Mbit/s half-duplex mode, 10 Mbit/s full duplex mode
 100 Mbit/s half-duplex mode, 100 Mbit/s full duplex mode
 1000 Mbit/s full duplex

Delivery state: Autonegotiation activated
The socket housing is electrically connected with the front panel.
The pin assignment corresponds to MDI-X.
When using 10/100 Mbit/s, the PoE power is supplied via the signal­transmitting wire pair (phantom voltage) or via the free wire pairs (spare
pair supply).

 10/100/1000 Mbit/s twisted pair port

Device variants featuring supply voltage with the characteristic value C
or K have this port exclusively.
The 10/100/1000 Mbit/s twisted pair port offers you the ability to connect
network components according to the IEEE 802.3 10BASE-T/100BASE­TX/1000BASE-T standard.
This port supports:

 Autocrossing (if autonegotiation is activated)
 Autonegotiation
 Autopolarity
 10 Mbit/s half-duplex mode, 10 Mbit/s full duplex mode
 100 Mbit/s half-duplex mode, 100 Mbit/s full duplex mode
 1000 Mbit/s full duplex

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Delivery state: Autonegotiation activated

1
2
3

4
5
6
7
8

The socket housing is electrically connected with the front panel.
The pin assignment corresponds to MDI-X.

 1000 Mbit/s F/O port

The 1000 Mbit/s F/O port offers you the ability to connect network
components according to the IEEE 802.3 1000BASE-SX/1000BASE-LX
standard.
This port supports:

 Full duplex mode

1.5.2 10/100/1000 Mbit/s twiste d-pair connection (optional)

See the properties of this port “10/100/1000 Mbit/s twisted pair port” on page

30.

1.5.3 Pin assignments

RJ45 Pin 10/100 Mbit/s 1000 Mbit/s PoE

MDI mode

1 TX+ BI_DA+ Positive V
2TX BI_DA Positive V
3 RX+ BI_DB+ Negative V
4 — BI_DC+ Positive V
5— BI_DC Positive V
6RX BI_DB Negative V
7 — BI_DD+ Negative V
8— BI_DD Negative V

MDI-X mode

1 RX+ BI_DB+ Negative V
2RX BI_DB Negative V
3 TX+ BI_DA+ Positive V
4 — BI_DD+ Positive V
5— BI_DD Positive V
6TX BI_DA Positive V
7 — BI_DC+ Negative V
8— BI_DC Negative V

a. Phantom supply
b. Spare pair supply

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

a

a

a

b

b

a

b

b

a

a

a

b

b

a

b

b

M12 4-pin (“D”-coded) Pin Data PoE

4

1

1 TX+ Positive V
2 RX+ Negative V
3TX Positive V

23

4RX Negative V

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PSE

PSE

PSE

PSE

31

M12 8-pin (“X”-coded) Pin 10/100 Mbit/s 1000 Mbit/s PoE

18

2

36

7

45

1 RX+ BI_DB+ Negative V
2RX BI_DB Negative V
3 TX+ BI_DA+ Positive V
4TX BI_DA Positive V
5 — BI_DC+ —
6— BI_DC —
7— BI_DD —
8 — BI_DD+ —

PSE

PSE

PSE

PSE

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1.6 Connections for antennas

P1

WLAN2

P2

WLAN1

You require antennas for operating the devices.
The devices have 3 reverse SMA connections (SMA = Sub-Miniature
Version A) on each WLAN module.
The "Antenna Guide" document provides an overview of the antennas that
can be used as well as the suitable antenna accessories.
This document is available for download as a PDF file on the Hirschmann
product pages (www.hirschmann.com).

1.7 Display elements

After the supply voltage is set up, the software starts and initializes itself.
Afterwards, the device performs a self-test. During this process, various
LEDs light up.
These actions take less than 1 minute.

1.7.1 Meaning of the LEDs

The following terms describe the behavior of the LEDs:

 Regular flashing: the LED switches on and off at regular intervals in the

specified sequence (e.g. red/off).

 Brief flashing: the LED lights up very briefly, then remains inactive for a

much longer time (about 10 × as long).

 Inverse flashing: the LED remains inactive for a very short time (about

10 × as long), then lights up for a much longer time (about 10 × as long).

 Flickering: the LED switches on and off at irregular intervals.
 Running light: coordinated glowing of several LEDs which gives the

optical impression that a light source is moving from left to right and back.

1.7.2 Device state

These LEDs provide information about conditions which affect the operation
of the whole device.

LED display elements for device status

P1 Power supply connection 1
P2 Power supply connection 2
WLAN1 WLAN module 1

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LED display elements for device status

WLAN2 For device variants with 2 WLAN modules:

WLAN module 2

Note: For device variants with 1 WLAN module, this LED is unlabeled and

solely lights up after the configuration is reset (hard reset).

See “Reset button” on page 37.

P1, P2 (green/red LED) Meaning

off Connection is voltage-free.

a

green glowing Voltage present, device is operational.
red/green flashing (slowly) Charge lock active.

b

red/green flashing (quickly) Unprotected configuration as no password or the default

password is set.
red/off flashing (quickly) Hardware error detected.
red/green Running light of P1

and P2

green Running light of P1

A BAT controller WLC with an incompatible protocol is

connected.

Device is searching for a BAT controller WLC.

a

b

and P2

a. If both connections are voltage-free, the power supply is possibly running via an active

Ethernet connection at the PoE port. The port status LEDs directly on the port show you
whether an Ethernet connection is active.

b. Which LED displays the corresponding response depends on the configuration of the power

supply connections. P2 always performs signaling if a voltage is solely present on the
connection for supply voltage 2. In all other cases, signaling is performed by P1.

WLAN 1, WLAN 2

WLAN mode Meaning

(green/red LEDs)

off all No WLAN network defined or WLAN module

deactivated. WLAN module does not send any
beacons.

green glowing Access Point,

P2P

green flashing

inversely

Access Point,
P2P

green flashing Access Point,

At least one WLAN network defined and WLAN
module activated. WLAN module sends beacons.

Number of flashes = Number of connected WLAN
stations and P2P radio lines, then there is a break.

DFS scanning or another scan procedure.

P2P

green flashing Client, P2P Signal strength: The faster the LED blinks, the

better the signal and thus the connection quality.

red flashing all Hardware error detected in the WLAN module.

1.7.3 Port status

These LEDs display port-related information.
The LEDs are directly located on the ports.

LS/DA (green/yellow LED) Meaning

off No network device connected
green glowing Ethernet connection active
yellow flickering Data traffic

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1.8 Management interfaces

1.8.1 V.24 interface (external management)

This interface is designed as an 8-pin, “A”-coded M12 plug.
The V.24 user interface is serial and allows you to connect the following
devices directly:

 External management station (VT100 terminal or PC with appropriate

terminal emulation). With this management station, the Command Line
Interface (CLI) is available to you. Furthermore, the system monitor is
available to you at the system start.
You will find more information here:
– table 5 on page 36

 BAT-R device. Connecting the BAT-R device allows you to automate the

configuration of a point-to-point WLAN line by connecting two devices
directly via the serial interface.
You will find more information here:
– User Manual Configuration Guide
– table 6 on page 36

VT 100 terminal settings

Speed 115200 bit/s
Data 8 bit
Stopbit 1 bit
Handshake Hardware
Parity none

The socket housing is electrically connected to the front panel of the device.
The V.24 interface is electrically insulated from the supply voltage.
 Only use a shielded cable.

Pins of the M12 socket
on the device

1

8

7

6

5

2

3

4

Pin Function Description of functions

1 GND Ground
2 DTR Data terminal ready
3 TxD Transmit data
4 RxD Receive data
5 DCD Data carrier detect
6 DSR Dataset ready
7 RTS Request to send
8 CTS Clear to send

Table 4: Pin assignment of the V.24 interface, 8-pin, “A”-coded M12 socket

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Pins of the M12 socket on

8

2

3

4

7

6

1

5

1
2
3
4
5
6
7
8

5
4
3
2
1
6
7
8

8

2

3

4

7

6

1

5

1
2
3
4
5
6
7
8

1
2
3
4
5
6
7
8

the device

Pin assignment for the connection
with a cable

Pins of the DB9 plug on
the external device

5
8

1

Table 5: Pin assignment for the connection with a cable:

8-pin, „A“-coded M12 plug to DB9 connector

You can order a terminal cable M12, 8-pin, to DB9 as an accessory.

See “Accessories” on page 65.

Pins of the M12 socket on
the device

Table 6: Pin assignment for the connection with a cable:

8-pin, “A”-coded M12 plug to 8-pin, “A”-coded M12 plug (point-to-point
WLAN line)

Pin assignment for the connection
with a cable

Pins of the M12 socket on
the device

1

8

7

6

5

2

3

4

Note: With the point-to-point WLAN line, the following pins are short-circuited

at both ends:

 2 (DTR) + 6 (DSR)
 7 (RTS) + 8 (DSR)

1.8.2 USB interface

This interface offers you the ability to connect the storage medium
AutoConfiguration Adapter ACA21-M12. This storage medium is used for
saving/loading the configuration and diagnostic functions, and for loading the
software.

The USB interface has the following properties:

 Supports the USB master mode
 Supports USB 1.1 (data rate max. 12 MBit/s)

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 Connectors: type A
 Supplies current of max. 500 mA
 Voltage not potential-separated

Figure Pin Operation

3

1

4

2

1 VCC (VBus)
2  Data
3 + Data
4 Ground (GND)

Table 7: Pin assignment of the USB interface

1.9 Signal contact

Figure 1: Signal contact: 2-pin terminal block with screw locking

Device variants featuring supply voltage with the characteristic value C, K
or W have a signal contact exclusively.
You have the option of setting the signal contact manually using the device
management.

1.10 Reset button

The device has a reset button.
You will find more information in the “User Manual Configuration Guide”, in
the chapter “Using the Boot Configurations”.

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2 Installation

The devices have been developed for practical application in a harsh
industrial environment.
On delivery, the device is ready for operation.

Perform the following steps to install and configure the device:

 Checking the package contents
 Installing and grounding the device
 Installing an SFP transceiver (optional)
 Installing the antennas
 Connecting the terminal blocks (optional)
 Operating the device
 Connecting data cables
 Making basic settings
 Configuring the transmit power

2.1 Checking the package contents

 Check whether the package includes all items named in the section

“Scope of delivery” on page 65.

 Check the individual parts for transport damage.

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2.2 Installing and grounding the device

WARNING

FIRE HAZARD

For use in UL60950-1 conditions:
Install the device in a fire enclosure.

Relevant for Europe:
Install the device in a fire enclosure according to EN 60950-1.

In the following exceptional cases, you do not require a fire-protected shell:

 You are supplying voltage to the device only via PoE.
 You are supplying only 24 V to the device and are using a fuse.

Regarding the properties of this fuse: See “General technical data” on

page 52.

Failure to follow these instructions can result in death, serious injury,
or equipment damage.

2.2.1 Installing the device onto the DIN rail

To mount the device onto a horizontally mounted 35 mm DIN rail according
to DIN EN 60715, proceed as follows:

 Slide the upper snap-in guide of the device into the DIN rail.
 Pull the rail lock slide down using a screwdriver, and press the lower part
 of the device against the DIN rail.
 Snap in the device by releasing the rail lock slide.

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2.2.2 Mounting on a vertical flat surface

You have the option of attaching the device to a vertical flat surface. This
requires a wall mounting plate, which you purchase as a separate accessory.

See “Accessories” on page 65.

The wall mounting plate is provided with a Mounting Note that takes you
through the mounting procedure.

2.2.3 Grounding the device

The device is grounded via the separate ground screw.
The device variants featuring supply voltage with characteristic value C
and K have a connection for protective ground.
The device variants featuring supply voltage with characteristic value W have
a connection for functional ground.

 Ground the device via the ground screw.
The ground screw is surrounded by overlay material. Make sure that the
overlay material does not prevent a solid metal to metal main protective
earthing connection. If needed remove a section of the overlay material to
ensure a reliable main protective earthing connection.

2.3 Installing an SFP transceiver (optional)

Use only Hirschmann SFP transceivers which are suitable for usage with the
device.

See “Accessories” on page 65.

Proceed as follows:

 Remove the protection cap from the SFP transceiver.
 Push the transceiver with the lock closed into the slot until it latches in.

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2.4 Installing the antennas

6

1a

1b

1c

2a

2b

2c

12

1 WLAN module 1:

2 WLAN module 2 (optional):

Table 8: Antenna connections

1a Antenna connection 1
1b Antenna connection 2
1c Antenna connection 3

2a Antenna connection 1
2b Antenna connection 2
2c Antenna connection 3

If you connect to 2 BAT-R devices antennas to 2 WLAN modules, ensure that
there is a distance of at least 2 m between the BAT-R devices.
If you would like to connect several antennas to a WLAN module, align the
antennas so that the points of the antennas point away form each other in a
star shape.
 Install at least one antenna on the WLAN module that you would like to

use.

 Insert the terminating resistors available as accessories into the sockets

not being used in order to avoid radio signals from one WLAN module
being received by the other WLAN module.

Relevant for use of BAT-ANT-N-MiMo-18N-IP65 with FCC and approval 2,
characteristic value H. The devices are labeled as follows:

 “FCC ID: U99EWLAN2 and IC: 4019A-EWLAN2”

Connect the BAT-ANT-N-MiMo-18N-IP65 to the WLAN module as follows:

 Connect the antenna port "Ver" with the WLAN antenna port 1.
 Connect the antenna port "+45 °" with the WLAN antenna port 2.
 Connect the antenna port "45 °" with the WLAN antenna port 3.

 Connect the BAT-ANT-N-MiMo-18N-IP65 in this way exclusively.

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2.5 Connecting the terminal blocks (optional)

WARNING

ELECTRIC SHOCK

Never insert pointed objects (narrow screwdrivers, wires, etc.) into the
device or into the connection terminals for electric conductors. Do not touch
the connection terminals.

Start connecting the electrical wires only if all the above safety

requirements are fulfilled.

See “Requirements for connecting electrical wires” on page 8.
See “Requirements for connecting the supply voltage” on page 9.

Failure to follow these instructions can result in death, serious injury,
or equipment damage.

The supply voltage is electrically isolated from the housing.
For devices with 2 supply voltage connections:
You have the option of supplying the supply voltage redundantly, without
load distribution.
Both supply voltage inputs are uncoupled.

2.5.1 Supply voltage with the characteristic value C

Figure 2: Supply voltage with the characteristic value C: 2-pin terminal block with

screw locking

Type of the voltages
that can be
connected

DC voltage Rated voltage range DC

Table 9: Supply voltage with the characteristic value C: type and specification of

the supply voltage, pin assignment on the device

Specification of the supply
voltage

24 V ... 48 V
Voltage range DC incl.
maximum tolerances
18 V ... 60 V

Pin assignment on the device

+ Plus terminal of the supply voltage
 Minus terminal of the supply

voltage

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Perform the following steps for the supply voltage to be connected, or for

device variants with 2 supply voltage connections of this type, for every

supply voltage to be connected.

 Remove the power connector from the device.
 Connect the wires according to the pin assignment on the device with the

clamps.

 Fasten the wires connected by tightening the terminal screws.

2.5.2 Supply voltage with the characteristic value K

WARNING

ELECTRIC SHOCK

Install this device solely in a switch cabinet or in an operating site with
restricted access, to which maintenance staff have exclusive access.

Failure to follow these instructions can result in death, serious injury,
or equipment damage.

Figure 3: Supply voltage with the characteristic value K: 3-pin terminal block with

screw locking

Type of the voltages
that can be
connected

DC voltage Rated voltage range DC

AC voltage Rated voltage range AC

Specification of the supply
voltage

60 V ... 250 V
Voltage range DC incl.
maximum tolerances
48 V ... 320 V

110 V ... 230 V, 50 Hz ... 60 Hz
Voltage range AC incl.
maximum tolerances
88 V ... 265 V, 47 Hz ... 63 Hz

Pin assignment on the device

+/L Plus terminal of the supply voltage
/N Minus terminal of the supply

voltage
Protective conductor

+/L Outer conductor
/N Neutral conductor

Protective conductor

Table 10: Supply voltage with the characteristic value K: type and specification of

the supply voltage, connections

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 Remove the power connector from the device.
 Connect the protective conductor according to the pin assignment on the

device with the clamp.

 Fasten the wires connected by tightening the terminal screws.
 Connect the wires according to the pin assignment on the device with the

clamps.

 Fasten the wires connected by tightening the terminal screws.

2.5.3 Supply voltage with the characteristic value W

Note: For devices with 2 WLAN modules, the option of suppling power via

PoE is unavailable.

Figure 4: Supply voltage with the characteristic value W: 2-pin terminal block with

screw locking

Type of the voltages
that can be
connected

DC voltage Nominal voltage DC

Table 11: Supply voltage with the characteristic value W: type and specification of

the supply voltage, pin assignment on the device

Specification of the supply
voltage

24 V
Voltage range DC incl.
maximum tolerances
18 V ... 32 V

Pin assignment on the device

+ Plus terminal of the supply voltage
 Minus terminal of the supply

voltage

For every supply voltage to be connected, perform the following steps:

 Remove the power connector from the device.
 Connect the wires according to the pin assignment on the device with the

clamps.

 Fasten the wires connected by tightening the terminal screws.

2.5.4 Signal contact

Device variants featuring supply voltage with the characteristic value C, K
or W have a signal contact exclusively.

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For every signal contact to be connected, make sure the following
requirements are met:

 The electrical wires are voltage-free.
 The connected voltage is limited by a current limitation device or a fuse.

 Observe the electrical threshold values for the signal contact.

See “General technical data” on page 52.

 Connect the wires according to the pin assignment on the device with the

clamps.

 Mount the terminal block on the device using screws.

2.6 Operating the device

By connecting the supply voltage via a terminal block or a twisted pair cable
(Power over Ethernet), you start the operation of the device.

2.6.1 Connecting the power supply through a terminal block

Relevant for North America:
The torque for tightening the supply voltage terminal block on the device is

4.5 lb-in (0.51 Nm).

The torque for tightening the terminal block for the signal contact on the
device is 3 lb-in (0.34 Nm).

 Use screws to secure the connectors to the device.
 Enable the supply voltage.

2.6.2 Connecting the power supply through PoE

Note: For devices with 2 WLAN modules, the option of suppling power via

PoE is unavailable.

NOTICE

MATERIAL DAMAGE

In a PoE installation, use only devices that comply with the IEEE 802.3af/at
standard.

Non-adherence to these instructions can lead to equipment damage.

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Only for device variants featuring supply voltage with the characteristic
value P or W:
By connecting the supply voltage via PoE, you start the operation of the
device.

2.7 Connecting data cables

2.7.1 Gigabit combo port

 10/100/1000 Mbit/s PoE PD port

For further information see “10/100/1000 Mbit/s PoE PD port” on page 30.

 Connect the data cables according to your requirements.

 1000 Mbit/s F/O port

For further information see “1000 Mbit/s F/O port” on page 31.
Make sure that you connect LH ports exclusively with LH ports, SX ports
exclusively with SX ports, and LX ports exclusively with LX ports.
 Connect the data cables according to your requirements.

2.7.2 10/100/1000 Mbit/s twisted-pair connection (optional)

For further information see “10/100/1000 Mbit/s twisted-pair connection

(optional)” on page 31.

 Connect the data cables according to your requirements.

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3 Making basic settings

The IP parameters must be entered when the device is installed for the first
time. The device provides the following options for configuring IP addresses:

 Entry via V.24 connection
 Entry via the HiDiscovery protocol in the applications HiDiscovery or

Industrial HiVision

 Configuration via BOOTP
 Configuration via DHCP (Option 82)
 AutoConfiguration Adapter

You will find more information in the “User Manual Configuration Guide”.
This document is available for download as a PDF file on the Hirschmann
product pages (www.hirschmann.com).

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4 Configuring the transmit power

Note: The operator of a WLAN radio installation must adhere to the

applicable transmission threshold values.

Use the graphical user interface or the LANconfig software. You can
download the LANconfig software as an ISO image from the Hirschmann
product pages (www.hirschmann.com).

In the graphical user interface, proceed as follows:

 In the menu tree, open the Configuration > Wireless LAN > General

dialog.

 In the “General” tab, specify in the “General” frame the country in which

you install the device, and click the “Send” button.

 In the menu tree, open the Configuration > Wireless LAN > General >

Physical WLAN settings - Radio dialog.

 In the “General” tab, click in the “Interface” column the physical WLAN

interface to which you connect the antenna.

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 Subtract the cable and installed over voltage protector attenuation from

the antenna gain. Enter the calculated value in the “Antenna gain” field.

 To save the value, click the “Send” button.

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5 Maintenance and service

 When designing this device, Hirschmann largely avoided using high-wear

parts. The parts subject to wear and tear are dimensioned to last longer
than the lifetime of the product when it is operated normally. Operate this
device according to the specifications.

 Relays are subject to natural wear. This wear depends on the frequency

of the switching operations. Check the resistance of the closed relay
contacts and the switching function depending on the frequency of the
switching operations.

 Hirschmann is continually working on improving and developing their

software. Check regularly whether there is an updated version of the
software that provides you with additional benefits. You find information
and software downloads on the Hirschmann product pages on the
Internet (www.hirschmann.com).

 Depending on the degree of pollution in the operating environment, check

at regular intervals that the ventilation slots in the device are not
obstructed.

Note: You will find information about the complaints and returns procedures

on the Internet under

http://www.beldensolutions.com/en/Service/Repairs/index.phtml.

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6Disassembly

1

2

6.1 Removing the device

 Disconnect the data cables.
 Disable the supply voltage.
 Disconnect the terminal blocks.
 Remove the antennas.
 Disconnect the grounding.
 Insert a screwdriver horizontally below the housing into the locking gate.
 Pull the locking gate down without tilting the screwdriver.
 Lift the bottom of the device away from the DIN rail.

6.2 Removing an SFP transceiver (optional)

 Pull the SFP transceiver out of the slot by means of the opened lock.
 Close the slot with the protection cap.

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7 Technical data

7.1 General technical data

Weight Device variants featuring supply voltage with

characteristic value P
Device variants featuring supply voltage with

characteristic value C or K
Device variants featuring supply voltage with

characteristic value W
and approvals 1 with characteristic value F, G, I,
M or 9

Device variants featuring supply voltage with
characteristic value W
and approvals 1 with characteristic value K

Supply voltage
with the
characteristic
value C

Supply voltage
with the
characteristic
value K

Class 2
Rated voltage range DC 24 V ... 48 V
Voltage range DC incl.

maximum tolerances
Connection type 2-pin terminal block
Power loss buffer > 10 ms at 20.4 V DC
Overload current protection at

input
Back-up fuse for each voltage

input when supply is via 2
inputs

Back-up fuse when using 1
voltage input

Back-up fuse when installed in
a fire-protection shell
according to EN 60950-1

Peak inrush current 14 A
Rated voltage range AC 110 V ... 230 V, 50 Hz ... 60 Hz
Voltage range AC incl.

maximum tolerances
Rated voltage range DC 60 V ... 250 V
Voltage range DC incl.

maximum tolerances
Connection type 3-pin terminal block
Power loss buffer > 10 ms at 98 V AC
Overload current protection at

input
Back-up fuse for each voltage

input
Peak inrush current 14 A

a

18 V ... 60 V

Non-replaceable fuse

Nominal rating:
Characteristic:

Nominal rating:
Characteristic:

Nominal rating:
Characteristic:

88 V ... 265 V, 47 Hz ... 63 Hz

48 V ... 320 V

Non-replaceable fuse

Nominal rating:
Characteristic:

approx. 42.33 oz
(1200 g)

approx. 52.91 oz
(1500 g)

approx. 42.33 oz
(1200 g)

approx. 45.86 oz
(1300 g)

Max. 1.5 A
slow blow

Max. 3.15 A
slow blow

Max. 6.3 A
slow blow

2.5 A
slow blow

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Supply voltage

Power supply solely through PoE
with the
characteristic
value P

Supply voltage
with the
characteristic
value W

Class 2

Nominal voltage DC 24 V

Voltage range DC incl.

maximum tolerances

Connection type 2-pin terminal block

Power loss buffer > 10 ms at 20.4 V DC

Overload current protection at

input

Back-up fuse for each voltage

input when supply is via 2

inputs

Back-up fuse when using

1 voltage input

b

Back-up fuse when installed in

a fire-protection shell

according to EN 60950-1

Peak inrush current 14 A
Climatic

conditions during
operation

Minimum clearance around the

device

Ambient air temperature

c

Humidity 10 % ... 95 %

Air pressure Up to 6562 ft (2000 m; 795 hPa), higher

Climatic
conditions during

Ambient air temperature

Humidity 10 % ... 95 %

c

storage

Air pressure minimum 700 hPa (+9842 ft; +3000 m)

“FAULT”
signal contact

Switching current max. 1 A, SELV

Switching voltage Supply voltage with the characteristic

Pollution degree 2

18 V ... 32 V

Non-replaceable fuse

Nominal rating:
Characteristic:

Nominal rating:
Characteristic:

Nominal rating:
Characteristic:

Max. 1.5 A
slow blow

Max. 3.15 A
slow blow

Max. 6.3 A
slow blow

Top and bottom device side: 3.94 in (10 cm)
Left and right device side: 0.79 in (2 cm)

Devices with operating temperature
characteristic value S (standard):
+32 °F ... +140 °F (0 °C ... +60 °C)

Devices with operating temperature
characteristic value E and T (extended):
40 °F ... +158 °F (40 °C ... +70 °C)

d

Devices with operating temperature
characteristic value K (Extended with
Conformal Coating, approvals 1 with the
characteristic value K):
40 °F ... +122 °F (40 °C ... +55 °C)

(non-condensing)

altitudes on request
maximum 1060 hPa (1312 ft; 400 m)

40 °F ... +185 °F (40 °C ... +85 °C)

(non-condensing)

maximum 1060 hPa (1312 ft; 400 m)

valueC andK:
max. 60 V DC or max. 30 V AC, SELV

Supply voltage with the characteristic
value W:
max. 30 V DC, SELV

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Protection classes Laser protection Class 1 in compliance with IEC 60825-1

120,6 mm

145 mm

136,4 mm

120,8 mm

4.75 in

5.71 in

4.76 in

5.37 in

Degree of protection IP20

a. When supplied with 24 V, possible as alternative to back-up fuse:

Supply voltage based on NEC Class 2 or EN 60950-1 Limited Power Source

b. As an alternative to the back-up fuse is possible:

Supply voltage based on NEC Class 2 or EN 60950-1 Limited Power Source
c. Temperature of the ambient air at a distance of 2 in (5 cm) from the device
d. Use SFP transceivers with the “EEC” extension only, otherwise the standard temperature

range applies.

7.2 Dimension drawings

Figure 5: Dimensions of device variants featuring supply voltage with the

54

characteristic value W or P. See table 3 on page 24.
Note: figure without connections

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Figure 6: Dimensions of device variants featuring supply voltage with the

145 mm

150,6 mm

120,8 mm

136,4 mm

5.93 in

5.71 in

4.76 in

5.37 in

characteristic value C or K. See table 3 on page 24.
Note: figure without connections

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7.3 Radio technology

Antenna connection For each WLAN module: 3 × reverse SMA connection
Range Depending on the antenna used, frequency range and data rate
Encryption

Frequency range

Modulation technology

Radio topology WLAN Access-Point, Bridge-, Router-, Point-to-Point-, Client-, Client-

 IEEE 802.11i/WPA2 with passphrase or IEEE 802.1x and

hardware-accelerated AES

 Closed Network
 WEP 64
 WEP 128
 WEP 152
 User authentication
 802.1x/EAP
 LEPS
 WPA1/TKIP
 For more information, see the HiLCOS data sheet.

 Support of 2.4 GHz and 5 GHz: 2412 MHz to 2472 MHz and

5180 MHz to 5825 MHz

 OFDM: BPSK, QPSK, 16-QAM, 64-QAM, 256-QAM
 DSSS/CCK

Bridge-Mode

a

b
c

d

a. With encryptions of the type TKIP and WEP, the device falls back on IEEE 802.11b/g or

IEEE 802.11a.
b. With encryptions of the type TKIP and WEP, the device falls back on IEEE 802.11b/g or

IEEE 802.11a.
c. With encryptions of the type TKIP and WEP, the device falls back on IEEE 802.11b/g or

IEEE 802.11a.
d. With encryptions of the type TKIP and WEP, the device falls back on IEEE 802.11b/g or

IEEE 802.11a.

7.4 Roaming

 IEEE 802.11F (Inter-Access Point Protocol)
 IEEE 802.11r (Fast Roaming)
 PMK caching
 Pre authentification
 OKC (Opportunistic key caching)

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7.5 Receiv e sensitivity , transmission pow er and data rate according to IEEE 802.11a/b/g/n

The values shown in the following tables show maximum values of the WLAN
module version for high-gain antennas. The values are in no case to be
perceived as a guaranteed property of the overall product. In some country
profiles, the module automatically reduces the data rate and transmit power
downward. This is due to national standards.

IEEE 802.11a/b/g/n
Data rate Typical transmit power Typical receive sensitivity

6 Mbps 16 dBm 93 dBm

9 Mbps 16 dBm 93 dBm

12 Mbps 16 dBm 93 dBm

18 Mbps 16 dBm 91 dBm

24 Mbps 16 dBm 88 dBm

36 Mbps 15 dBm 84 dBm

48 Mbps 13 dBm 80 dBm

54 Mbps 12 dBm 79 dBm

IEEE 802.11b
Data rate Typical transmit power Typical receive sensitivity

1Mbps 19dBm 94 dBm

11 Mbps 19 dBm 94 dBm

IEEE 802.11g
Data rate Typical transmit power Typical receiving sensitivity

6 Mbps 22 dBm 94 dBm

9 Mbps 22 dBm 94 dBm

12 Mbps 22 dBm 90 dBm

18 Mbps 22 dBm 89 dBm

24 Mbps 22 dBm 85 dBm

36 Mbps 21 dBm 82 dBm

48 Mbps 20 dBm 78 dBm

54 Mbps 19 dBm 77 dBm

IEEE 802.11n
Bandwidth 2.412 GHz to 2.472 GHz

Coding Typical transmit power Typical receiving sensitivity

MCS0 18 dBm 87 dBm

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IEEE 802.11n
Bandwidth 2.412 GHz to 2.472 GHz

Coding Typical transmit power Typical receiving sensitivity

MCS1 18 dBm 90 dBm

MCS2 18 dBm 86 dBm

MCS3 18 dBm 82 dBm

MCS4 18 dBm 79 dBm

MCS5 16 dBm 75 dBm

MCS6 16 dBm 73 dBm

MCS7 15 dBm 72 dBm

MCS8 22 dBm 87 dBm

MCS9 21 dBm 90 dBm

MCS10 22 dBm 86 dBm

MCS11 21 dBm 82 dBm

MCS12 16 dBm 79 dBm

MCS13 16 dBm 75 dBm

MCS14 15 dBm 73 dBm

MCS15 15 dBm 72 dBm

MCS16 23 dBm 87 dBm

MCS17 23 dBm 90 dBm

MCS18 23 dBm 86 dBm

MCS19 23 dBm 82 dBm

MCS20 16 dBm 79 dBm

MCS21 17 dBm 75 dBm

MCS22 17 dBm 73 dBm

MCS23 16 dBm 72 dBm

IEEE 802.11n
Bandwidth 5.180 GHz to 5.825 GHz

Coding Typical transmit power Typical receiving sensitivity

MCS0 17 dBm 92 dBm

MCS1 17 dBm 91 dBm

MCS2 17 dBm 89 dBm

MCS3 17 dBm 84 dBm

MCS4 17 dBm 81 dBm

MCS5 15 dBm 77 dBm

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IEEE 802.11n
Bandwidth 5.180 GHz to 5.825 GHz

Coding Typical transmit power Typical receiving sensitivity

MCS6 14 dBm 75 dBm

MCS7 14 dBm 73 dBm

MCS8 20 dBm 92 dBm

MCS9 20 dBm 91 dBm

MCS10 19 dBm 89 dBm

MCS11 20 dBm 84 dBm

MCS12 18 dBm 81 dBm

MCS13 15 dBm 77 dBm

MCS14 15 dBm 75 dBm

MCS15 14 dBm 73 dBm

MCS16 21 dBm 92 dBm

MCS17 21 dBm 91 dBm

MCS18 21 dBm 89 dBm

MCS19 21 dBm 84 dBm

MCS20 16 dBm 81 dBm

MCS21 15 dBm 77 dBm

MCS22 14 dBm 75 dBm

MCS23 14 dBm 73 dBm

7.6 Receiver sensitivity, transmit power, and
data rate of the WLAN module version for
high-gain antennas (approvals 2,
characteristic value H) according to IEEE

802.11a/b/g/n

The values shown in the following tables show maximum values of the WLAN
module version for high-gain antennas. The values are in no case to be
perceived as a guaranteed property of the overall product. In some country
profiles, the module automatically reduces the data rate and transmit power
downward. This is due to national standards.

IEEE 802.11a
Data rate Typical transmit power Typical receiving sensitivity

6Mbps 10 dBm -93 dBm

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IEEE 802.11a
Data rate Typical transmit power Typical receiving sensitivity

9Mbps 10 dBm -93 dBm

12Mbps 10 dBm -93 dBm

18Mbps 10 dBm -91 dBm

24Mbps 10 dBm -88 dBm

36Mbps 9 dBm -84 dBm

48Mbps 7 dBm -80 dBm

54Mbps 6 dBm -79 dBm

IEEE 802.11b
Data rate Typical transmit power Typical receiving sensitivity

1Mbps 19 dBm -94 dBm

11Mbps 19 dBm -94 dBm

IEEE 802.11g
Data rate Typical transmit power Typical receiving sensitivity

6Mbps 22 dBm -94 dBm

9Mbps 22 dBm -94 dBm

12Mbps 22 dBm -90 dBm

18Mbps 22 dBm -89 dBm

24Mbps 22 dBm -85 dBm

36Mbps 21 dBm -82 dBm

48Mbps 20 dBm -78 dBm

54Mbps 19 dBm -77 dBm

IEEE 802.11n
Bandwidth 2.412 GHz to 2.472 GHz

Coding Typical transmit power Typical receiving sensitivity

MCS0 18 dBm -87 dBm

MCS1 18 dBm -90 dBm

MCS2 18 dBm -86 dBm

MCS3 18 dBm -82 dBm

MCS4 18 dBm -79 dBm

MCS5 16 dBm -75 dBm

MCS6 16 dBm -73 dBm

MCS7 15 dBm -72 dBm

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IEEE 802.11n
Bandwidth 2.412 GHz to 2.472 GHz

Coding Typical transmit power Typical receiving sensitivity

MCS8 22 dBm -87 dBm

MCS9 21 dBm -90 dBm

MCS10 22 dBm -86 dBm

MCS11 21 dBm -82 dBm

MCS12 16 dBm -79 dBm

MCS13 16 dBm -75 dBm

MCS14 15 dBm -73 dBm

MCS15 15 dBm -72 dBm

MCS16 23 dBm -87 dBm

MCS17 23 dBm -90 dBm

MCS18 23 dBm -86 dBm

MCS19 23 dBm -82 dBm

MCS20 16 dBm -79 dBm

MCS21 17 dBm -75 dBm

MCS22 17 dBm -73 dBm

MCS23 16 dBm -72 dBm

IEEE 802.11n
Bandwidth 5.180 GHz to 5.825 GHz

Coding Typical transmit power Typical receiving sensitivity

MCS0 11 dBm -92 dBm

MCS1 11 dBm -91 dBm

MCS2 11 dBm -89 dBm

MCS3 11 dBm -84 dBm

MCS4 11 dBm -81 dBm

MCS5 9 dBm -77 dBm

MCS6 8 dBm -75 dBm

MCS7 8 dBm -73 dBm

MCS8 7 dBm -92 dBm

MCS9 7 dBm -91 dBm

MCS10 6 dBm -89 dBm

MCS11 7 dBm -84 dBm

MCS12 5 dBm -81 dBm

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IEEE 802.11n
Bandwidth 5.180 GHz to 5.825 GHz

Coding Typical transmit power Typical receiving sensitivity

MCS13 2 dBm -77 dBm

MCS14 2 dBm -75 dBm

MCS15 1 dBm -73 dBm

MCS16 8 dBm -92 dBm

MCS17 8 dBm -91 dBm

MCS18 8 dBm -89 dBm

MCS19 8 dBm -84 dBm

MCS20 3 dBm -81 dBm

MCS21 2 dBm -77 dBm

MCS22 1 dBm -75 dBm

MCS23 1 dBm -73 dBm

7.7 EMC and immunity

EMC interference
immunity

EN 61000-4-2 Electrostatic discharge

Contact discharge, test level 4 ± 8 kV
Air discharge, test level 4 ± 15 kV

EN 61000-4-3 Electromagnetic field

80 MHz ... 1000 MHz 20 V/m
1400 MHz ... 2700 MHz 10 V/m

EN 61000-4-4 Fast transients (burst), test level 4

DC power line ± 4 kV
AC Power Line ± 4 kV
Data line ± 4 kV

EN 61000-4-5 Voltage surges

DC power line ± 2 kV line/ground; ± 1 kV line/line
AC Power Line ± 4 kV line/ground; ± 2 kV line/line
Data line, shielded ± 4 kV line/ground
Data line, unshielded ± 2 kV line/ground
Data line, unshielded ± 1 kV line/line

EN 61000-4-6 Conducted interference voltages, test level 3

150 kHz ... 80 MHz 10 V

EN 61000-4-9 Pulse magnetic fields 300 A/m

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EMC interference
emission

EN 55022 Class B
FCC 47 CFR Part 15 Class A

Stability

Vibration IEC 60068-2-6 Test FC test level according to IEC 61131-2
Shock IEC 60068-2-27 Test Ea test level in accordance with IEC 61131-2,

EN 50155

7.8 Network range

Note: The line lengths specified for the transceivers apply for the respective

fiber data (fiber attenuation and BLP/dispersion).

Product
code
M-SFP-...

-SX/LC... MM 850 nm 50/125 µm 0-7.5 dB 0-550 m 3.0 dB/km 400 MHz×km

-SX/LC... MM 850 nm 62.5/125 µm 0-7.5 dB 0-275 m 3.2 dB/km 200 MHz×km

-LX/LC... MM 1310 nm

-LX/LC... MM 1310 nm

-LX/LC... SM 1310 nm 9/125 µm 0-10.5 dB 0-20 km

-LH/LC... LH 1550 nm 9/125 µm 5-22 dB 23-80 km 0.25 dB/km 19 ps/(nm×km)

-LH+/LC LH 1550 nm 9/125 µm 15-30 dB 71-108 km 0.25 dB/km 19 ps/(nm×km)

-LH+/LC LH 1550 nm 9/125 µm 15-30 dB 71-128 km 0.21 dB/km

Wave
length

Fiber System

attenuatio
n

c

50/125 µm 0-10.5 dB 0-550 m 1.0 dB/km 800 MHz×km

c

62.5/125 µm 0-10.5 dB 0-550 m 1.0 dB/km 500 MHz×km

Example
for F/O line
length

a

d

Fiber
attenuatio
n

0.4 dB/km 3.5 ps/(nm×km)

(typically)

BLPb/
dispersion

19 ps/(nm×km)

Table 12: Fiber port 1000BASE-FX (SFP fiber optic Gigabit Ethernet Transceiver)

a. including 3 dB system reserve when compliance with the fiber data is observed
b. Using the bandwidth length product is inappropriate for expansion calculations.
c. With F/O adapter compliant with IEEE 802.3-2002 clause 38 (single-mode fiber offset-launch

mode conditioning patch cord)

d. Including 2.5 dB system reserve when compliance with the fiber data is observed

MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul

10/100/1000 Mbit/s twisted pair port

Length of a twisted pair segment max. 109 yards (100 m) (for Cat5e cable)

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7.9 Power consumption/power output

Conditions Maximum

power consumption

When equipped with 1 WLAN module 12.95 W 44.19 BTU (IT)/h
When equipped with 2 WLAN

modules

17.5 W 59.71 BTU (IT)/h

Power output

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8 Scope of delivery, order numbers and

accessories

 Scope of delivery

Number Article

1× Device
1 × General safety instructions
1 × Terminal cable: M12 plug, 8-pin on DB9 socket
3 × per WLAN module 3-dBi dipole dual-band antennas for initial operation
2×

premounted

2×
premounted

2×
premounted

2×
premounted

3 ×
premounted

2-pin terminal block for the supply voltage
(only for device variants featuring supply voltage with the characteristic
value C or W)

3-pin terminal block for the supply voltage
(only for device variants featuring supply voltage with the characteristic
value K)

2-pin terminal block for signal contact
(only for device variants featuring supply voltage with the characteristic
value C, K or W)

50  terminating resistor for closing unused antenna connections
(for device variants with 1 wireless module exclusively)

50  terminating resistor for closing unused antenna connections
(only for device variants with 2 wireless modules)

Figure 7: Scope of delivery for device variants featuring Configuration with the

characteristic value Z

Number Article

1 × Device
1 × General safety instructions
2×

premounted

2×
premounted

2×
premounted

2-pin terminal block for the supply voltage
(only for device variants featuring supply voltage with the characteristic
value C or W)

3-pin terminal block for the supply voltage
(only for device variants featuring supply voltage with the characteristic
value K)

2-pin terminal block for signal contact
(only for device variants featuring supply voltage with the characteristic
value C, K or W)

Figure 8: Scope of delivery for device variants featuring Configuration with the

characteristic value 9

 Accessories

Note that products recommended as accessories may have different
characteristics to those of the device, which may limit the application
range of the overall system. For example, if you add an accessory with
IP20 to a device with IP65, the IP of the overall system is reduced to IP20.

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For reliable receive power and transmission power, you require antennas
that pertain to your application case.
The "Antenna Guide" document provides an overview of the antennas
that can be used as well as the suitable antenna accessories.
This document is available for download as a PDF file on the Hirschmann
product pages (www.hirschmann.com).

Gigabit Ethernet SFP transceiver Order number

M-SFP-SX/LC 943 014-001
M-SFP-SX/LC-EEC 943 896-001
M-SFP-LX/LC 943 015-001
M-SFP-LX/LC-EEC 943 897-001
M-SFP-LH/LC 943 042-001
M-SFP-LH/LC-EEC 943 898-001
M-SFP-LH+/LC 943 049-001

Other accessories Order number

2-pin terminal block (50 pieces) for signal contact 943 845-010
50  terminating resistors for closing unused antenna connections, N

(10 pieces)
Antenna cable BAT-CLB-2 N m-f 943 903-514
AutoConfiguration Adapter ACA21-USB (EEC) 943 271-003
For device variants featuring supply voltage with characteristic

value C or W:
2-pin terminal block (50 pieces) for supply voltage

For device variants featuring supply voltage with characteristic
value K:
3-pin terminal block (50 pieces) for supply voltage

Network management software Industrial HiVision 943 156-xxx
Rail Power Supply RPS60/48V EEC 943 952-001
Rail Power Supply RPS 30 943 662-003
Rail Power Supply RPS 80 EEC 943 662-080
Rail Power Supply RPS 120 EEC (CC) 943 662-121
Plug casing for IP67 V1 plug acc. to IEC 61076-3-106 (variant 1) Available at BTR

Terminal cable: M12 plug, 8-pin on DB9 socket 942 087-001
Wall mounting plate for DIN rail mounting, width 5.91 in (150 mm) 943 971-004

942 117-001

943 845-009

943 845-008

NETCOM GmbH

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9 Underlying technical standards

Name

ATEX (2014/34/EU) ATEX – Intended use of equipment and protection systems in

potentially explosive areas.
ECE No. 10 E type approval for use in vehicles
EN 300 328 Electromagnetic compatibility and radio spectrum matters (ERM)

- bandwidth transfer systems - data transmission equipment

operating in 2.4 GHz ISM band and using spread spectrum

modulation technology
EN 301 489-1 Electromagnetic compatibility for radio equipment and services
EN 301 489-17 Electromagnetic compatibility (EMC) for radio equipment and

services - specific conditions for 2.4 GHz broadband transmission

systems and 5 GHz high-performance RLAN equipment
EN 302 502 Broadband radio access networks (BRAN) – permanently

installed broadband data transmission systems with 5.8 GHz band
EN 301 893 Broadband radio access networks (BRAN) – 5 GHz high

performance Remote Local Area Network (RLAN)
EN 45545-1 Railway applications - Fire protection on railway vehicles - Part 1:

General
EN 45545-2 Railway applications - Fire protection on railway vehicles - Part 2:

Requirements for fire behavior of materials and components.
EN 50155 Railway applications - Electronic equipment used on rolling stock
EN 55022 Information technology equipment – Radio disturbance

characteristics – Limits and methods of measurement
EN 60079-0 Explosive atmospheres – Part 0: Equipment – General

requirements
EN 60529 Degrees of protection provided by housing – IP-Code
EN 60950-1 Information technology equipment – Safety – Part 1: General

requirements
EN 61000-6-2 Electromagnetic compatibility (EMC) – Part 6-2: Generic

standards – Immunity for industrial environments
EN 61131-2 Programmable controllers – Part 2: Equipment requirements and

tests
FCC 47 CFR Part 15 Code of Federal Regulations
FM3600 Approval Standard for Electrical Equipment for Use in Hazardous

(Classified) Locations - General Requirements
FM3611 Approval Standard for Nonincendive Electrical Equipment for Use

in Class I and Class II, Division 2, and Class III, Divisions 1 and 2,

Hazardous (Classified) Locations
IEC/EN 60079-15 Explosive atmospheres – Part 15: Equipment protection by type of

protection “n”
IEEE 802.1D MAC Bridges (switching function)
IEEE 802.1Q Virtual LANs (VLANs, MRP, Spanning Tree)
IEEE 802.1w Rapid Reconfiguration
IEEE 802.11a/b/g/h/n WLAN
IEEE 802.3 Ethernet
IEEE 802.3af Power over Ethernet
UL 60950-1 Information technology equipment – Safety – Part 1: General

requirements

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The device has an approval based on a specific standard only if the approval
indicator appears on the device casing.
The device generally fulfills the technical standards named in their current
versions.

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A Further support

Technical questions

For technical questions, please contact any Hirschmann dealer in your area
or Hirschmann directly.

You find the addresses of our partners on the Internet at

http://www.hirschmann.com.

A list of local telephone numbers and email addresses for technical support
directly from Hirschmann is available at

https://hirschmann-support.belden.eu.com.

This site also includes a free of charge knowledge base and a software
download section.

Hirschmann Competence Center

The Hirschmann Competence Center is ahead of its competitors on three
counts with its complete range of innovative services:

 Consulting incorporates comprehensive technical advice, from system

evaluation through network planning to project planning.

 Training offers you an introduction to the basics, product briefing and user

training with certification.
You find the training courses on technology and products currently
available at http://www.hicomcenter.com.

 Support ranges from the first installation through the standby service to

maintenance concepts.

With the Hirschmann Competence Center, you decided against making any
compromises. Our client-customized package leaves you free to choose the
service components you want to use.

Internet:

http://www.hicomcenter.com

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