Hirschmann BATOne User Manual

User Manual

Installation
Managed IP67 Wireless Switch
BATOne

Installation BATOne
Release 01 01/2019

Technical Support

https://hirschmann-support.belden.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.

© 2019 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 BATOne

Installation BATOne 01.01.2019

Contents

SAFETY INSTRUCTIONS

6

ABOUT THIS MAN UA L

12

KEY

13

1

DESCRIPTION 14

1.1

General description 14

1.2

Device name and product code 15

1.3

Device view 16

1.4

Power supply 17

1.5

Ethernet ports 17

1.5.1 10/100 Mbit/s twisted pair port 17

1.5.2 1000 Mbit/s F/O port 17

1.5.3 Pin assignments 18

1.6

Connections for antennas 18

1.7

Display elements 18

1.7.1 Device stat e 18

1.7.2 Port status 19

1.8

Management interfaces 20

1.8.1 USB interface 20

1.8.2 V.24 interface (external management) 21

1.9 Signal contact 24

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2

INSTALLATION 25

2.1

Checking the package contents 25

2.2

Installing and grounding the device 26

2.2.1 Installing the device 26

2.2.2 Grounding the device 26

2.3

Installing the antennas 27

2.4

Connecting the ferrite 28

2.5

Connecting the power supply and signal lines 29

2.5.1 Supply voltage (100 V AC... 240 V AC, 50 Hz / 60 Hz) 30

2.5.2 Signal contact 30

2.6

Operating the device 31

2.7

Connecting data cables 31

2.8

Filling out the inscription label 32

3

MAKING BASIC SETTINGS 33

4

MONITORING THE AMB IENT AIR TEMPERATURE 34

5

CONFIGURING THE TRANSMIT POWER 35

6

MAINTENANCE AND SERVICE 37

7

DISASSEMBLY 38

8

TECHNICAL DATA 39

8.1 General technical data 39

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8.2

Power consumption/power output 40

8.3

Dimension drawings 41

8.4

Radio technology 42

8.5

Roaming 42

8.6

Receiving sensitivity, transmit power, and data rate of the WLAN

module version EWLAN1 43

8.6.1 IEEE 802.11b 43

8.6.2 IEEE 802.11g 43

8.6.3 IEEE 802.11a 44

8.6.4 IEEE 802.11n 44

8.7

EMC and immunity 46

8.8

Network range 47

9

SCOPE OF DELIVERY, ORDER NUMBERS AND

ACCESSORIES 48

10

UNDERLYING TECHNICAL STANDARDS 50

A FURTHER SUPPORT

51

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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 i nstructions 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.

 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

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prerequisite for grounding and labeling circuits, devices, and systems
in accordance with current standar ds in safet y techn ol og y.

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

 Installati on site requirements

 Install this device in an operating site with restricted access, to which

maintenance staff have exclusive access.

 Certified us age

 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 39

.

 Connect to the product only components suitable for the requirements

of the specific application case.

 Requirement s for connecting electrical wires

Before connecting the electrical wires, always verify that the requirements
listed are complied with.

All of the following requirements are complied with:

 The electrical wires are voltage-free.

 The cables used are permitted for the temperature range of the application case.

Table 1: General requirements for connecting electrical wires

 Requirement s for connecting data lines

Before connecting the electrical wires, always verify that the requirements
listed are complied with.

All of the following requirements are complied with:

 The voltage connected complies with the requirements for a safety extra-low voltage

(Environment A - SELV) as per IEC/EN 60950-1.

Table 2: Requirements for connecting data lines

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WARNING

ELECTRIC SHOCK

Use only Safety Extra Low Voltage circuit.

Failure to follow this ins truc tion can result in death, serious injury,

or equipment damage.

 Requirement s for connecting t he signal contact

Before connecting the signal contact, always verify that the requirements
listed are complied with.

All of the following requirements are complied with:

 The voltage connected complies with the requirements for a safety extra-low voltage

(SELV) as per IEC/EN 60950-1.

 The connected voltage is limited by a current limitation device or a fuse.

Observe the electrical threshold values for the signal contact.

See Technical data on page 39.

Table 3: Requirements for connecting the signal contact

 Requirement s for connecting t he grounding

Before connecting the grounding, always verify that the requirements
listed are complied with.

Device variant

Requirements

All variants

The wire diameter of the ground conductor in the power supply
cable is the same size as or bigger than the wire diameter of the
power supply cables, however of at least 0.75

mm² (AWG18).

When connecting the provided cable lug, use a professional
crimping tool specified for the wire size. Follow the instructions
of the crimping tool. The pull out force of the crimped
connection is at least 135

N according to the technical standard

IEC 60352-2.

Table 4: Requirements for connecting the ground ing

 Requirement s for connecting t he supply v oltage

Before connecting the supply voltage, always verify that the requirements
listed are complied with.

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Device variant

Requirements

All variants

All of the following requirem ents are com plied with:

 The supply voltage corresponds to the voltage specified on the

type plate of the device.

 The supply voltage conforms to overvoltage category I or II.
 The supply voltage 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.

 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 Technical data on page 39

.

 The power supply cable is suitable for the voltage, the current

and the physical load. The wire diameter is at least

0.75 mm²(North America: AWG18).

Table 5: Requirements for connecting the supply voltage

WARNING

ELECTRIC SHOCK

Use only Safety Extra Low Voltage circuit.

Failure to follow this ins truc tion can result in death, serious injury,

or equipment damage.

 Supply volt age

The supply voltage is connected to the device casing through protective
elements exclusively.

 Shielding gro un d

 The overall shield of a connected shielded twisted-pair cable is

connected to the metal housing as a conductor.
 Beware of possible short circuits when connecting a cable section

with conductive shielding braiding.

 Grounding t he 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.

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 Use toothed washers to ensure good electrical conductivity at the

connection.

 Device casing

Only technicians authorized by the manufacturer are permitted to open
the housing.
 Install the device in the vertical position, with the antenna connections

pointing upwards.

 At ambient air temperatures > 140 °F (+60 °C):

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

 To preserve the suitability of your device for IP65/67, proceed as

follows:
 Remove the provided transport protection caps and the transport

protection screws from the device.

 Seal unused sockets and plugs with your desired type of protection

screws which you can order separately.

 Lightning protectio n

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

and overvoltage protection”.
You can download the manual from the Internet on the Hirschmann
product pages (http://www.hirschmann.com

).

 Install over voltage protector devices on every outdoor Ethernet cable.
 Prot ect antennas installed outs id e with lightn in g prot e c tion de vices (for

example lightning conductors).

 Take lightning 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
lightning protection procedures recognized and proven for the
application and the environment.

 National and international saf ety 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.

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 LED or laser components

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

 Recycling not e

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.
The documentation for your device is made up of the following documents:

 General safety instructions
 Installation user manual

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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 BATOne devices are designed for the special requirements of industrial
automation. They meet the relevant industry standards, provide very high
operational reliabil ity, even under extrem e conditions , and als o long-term
reliability and flexibility.

The BATOne are dual-band industrial high-performance wireless LAN access
points or clients complying with IEEE 802.11 a/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.

The redundancy concept allows the network to be reconfigured quickly.
There are convenient options for managing the device. Administer your

devices via:

 Web browser
 SSH
 Telnet
 HiDiscovery (Software for putting the device into operation)
 Management software (for example LANconfig/LANmonitor)
 V.24 interface (locally on the device)

The devices comply with the degrees of protection IP65/67.
The devices work without a fan.

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1.2 Device name and product code

The device name corresponds to the product code.

Product
Number

Product Code

Description

942244001 BATOne EEC 1 WLAN + ECC + 1 PSU

one Radio, conformal coating, one power supply and
extended temperature

SW: HiOS software layer 2 advanced, HiLCOS software

942244002 BATOne EEC DP 1 WLAN + ECC + 2 PSU

one Radio, conformal coating, two power supplies and
extended temperature

SW: HiOS software layer 2 advanced, HiLCOS software

942244003 BATOne 1 WLAN + No-ECC + 1 PSU

one Radio, no conformal coating, one power supply and
standard temperature

SW: HiOS software layer 2 advanced, HiLCOS software

942244004 BATOne DP 1 WLAN + No-ECC + 2 PSU

one Radio, no conformal coating, two power supplies
and standard temperature

SW: HiOS software layer 2 advanced, HiLCOS software

942244005 BATOne EEC DR 2 WLAN + ECC + 1 PSU

two Radios, conformal coating, one power supply and
extended temperature

SW: HiOS software layer 2 advanced, HiLCOS software

942244006 BATOne EEC

DRP

2 WLAN + ECC + 2 PSU
two Radios, conformal coating, two power supplies and
extended temperature

SW: HiOS software layer 2 advanced, HiLCOS software

942244007 BATOne DR 2 WLAN + No-ECC + 1 PSU

two Radios, no conformal coating, one power supply
and standard temperature

SW: HiOS software layer 2 advanced, HiLCOS software

942244008 BATOne DRP 2 WLAN + No-ECC + 2 PSU

two Radios, no conformal coating, two power supplies
and standard temperature

SW: HiOS software layer 2 advanced, HiLCOS software

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1.3 Device v iew

Device view using an example: BATOne DRP

Above: front of device

Below: bottom of device

1

Hole for mounting

2

LED display elements for device status

3 LED display elements for port status:

4

Up to 8 ×:
Local ports

 10/100 Mbit/s twisted pair port



4-pin, “D”-coded M12 socket

5

Power Connector 3-pin, 7/8"

6 Uplink F/O ports 1 and 2

Data rate



1000 Mbit/s F/O port

7

signal contact

 5-pin M12 connector

8

5-pin, “A”-coded M12 socket for USB interface

9

4-pin, “A”-coded M12 socket for Switch V.24 i nterf ace

10

WLAN MAC Labels

11

Device Label

12

WLAN LED

13

Ground connection

14

8-pin, “A”-coded M12 socket for Wireless V.24 interface

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1.4 Power supply

Two 3-pin 7/8" plugs are available for the power supply to the device.
For more detail see

Supply voltage on page 30

.

1.5 Ethernet ports

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

 Singlemode optical fiber
 Twisted pair cable

You find information on pin assignments for making patch cables here:

Pin assignments on page 18

.

1.5.1 10/ 100 Mbit/s t wisted pai r port
This port is a 4-pin, “D”-coded M12 socket.

The 10/100 Mbit/s twisted pair port allows you to connect network
components according to the IEEE 802.3 10BASE-T/100BASE-TX standard.
This port supports:

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

Delivery state: Autone got iat ion acti vat ed
The socket housing is electrically connected with the device housing.

1.5.2 1000 Mbi t/ s F/O por t

Figure 1: IP67 plug as per IEC 61076-3-106.

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

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This port supports:

 Full duplex mode

1.5.3 Pi n as signments

M12 4 -pin (“D”-coded)

Pin

Data

1

TX+

2

RX+

3

TX−

4

RX−

1.6 Connections for antennas

The devices have 3 N sockets on each WLAN module.
The "Antenna Guide" document provides an overview of the antennas that
can be used as well as the suitable antenna acc ess or ies .
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.

1.7.1 Dev ice state
These LEDs provide information about conditions which affect the operation

of the whole device.

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LED

Display

Color

Activity

Meaning

Power

Supply voltage

—

None

Supply voltage is too low

Yellow

Lights up

Device variants with redundant power

-

supply:

Supply voltage 1 or 2 is on

flashes 4
times a period

Software update is running. Maintain the
power -supply.

Green

Lights up

Device variants with redundant power

-

supply:

Supply voltages 1 and 2 are on

Device variants with single power
supply:
Supply voltage is on

ACA

-ACA21-M12/ACA2
2

-M12 storage

medium (USB
interface)

—

None

ACA storage medium not connected

Green

Lights up

ACA storage medium connected

Flashes 3
times a period

Device writes to/reads from the storage
medium

Yellow

Lights up

ACA storage medium inoperative

RM

Ring Manager

—

None

No redundancy configured

Green

Lights up

Redundancy exists

Flashes 1 time
a period

Device is reporting an incorrect
configuration of the RM function

Yellow

Lights up

No redundancy exists

Status

Device Status

—

None

Device is starting and/or is not ready for
operation

Green

Lights up

Device is ready for operation.
Characteristics can be configured

Red

Lights up

Device is ready for operation.
Device has detected at least o

ne error in

the monitoring results

Flashes 1 time
a period

The boot parameters used when the
device has been started differ from the
boot parameters saved.
Start the device again.

flashes 4
times a period

Device has detected a multiple IP
address

1.7.2 Port status
These LEDs provide port-related inf or mation.

 Link state

These LEDs are identified with the number of the related port.

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LED

Display

Color

Activity

Meaning

L/D

Link status

—

None

Device detects an invalid or missing
link

Green

Lights up

Device detects a valid link

Flashes 1 time a period

Port is switched to stand-by

Flashes 3 times a
period

Port is switched off

Yellow

Lights up

Device detects a data rate that is not
supported

Flashing

Device is transmitting and/or
receiving data

Flashes 1 time a period

Device detects at least one
unauthorized MAC address (Port
Security Violation)

WLAN 1, WLAN 2
(green/red LEDs)

WLAN mode

Meaning

Off All

No WLAN network defined or WLAN module
deactivated. WLAN module does not send any
beacons.

Green

Glowing

Access
Point, P2P

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

Green

Flashing
inversely

Access
Point, P2P

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

Green

Flashing

Access
Point, P2P

DFS scanning or another scan procedure.

Green

Flashing

Client, P2P

Signal strength: The fast er the LED blinks, the
better the signal and thus the connection quality.

Red

Flashing

All

Hardware error detected in the WLAN module.

1.8 Management interfaces

1.8.1 USB interface

This interface offers you the ability to connect the storage medium
AutoConfiguration Adapter ACA22-M12. This storage medium is used for
saving/loading the configuration and diagnostic functions, and for loading the
software.

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This interface is a 5-pin, “A”-coded M12 socket with shielding.
Only connect the ACA22-M12 storage medium. You can obtain this as
accessory: See Accessories on page 48

.

Pin

Function

1

Uin

5 V

2

N.C.

Not used

3

D-

Data -

4

GND

Ground (0 V)

5

D+

Data +

Table 6: Pin assignment of the USB interface, 5-pin, “A”- coded M12 socket

1.8.2 V.24 interface (external manage m ent)
BATOne have 2 V.24 ports. Both are “A”- coded M12 socket.

V.24 connection, a serial interface is provided for the local connection of an
external management station (VT100 terminal or PC with corresponding
terminal emulation). This enables you to set up a connection to the
Command Line Interface (CLI) and to the system monitor.
Switch V.24:

VT 100 terminal settings

Speed

9600 Baud

Data

8 bit

Stopbit

1 bit

Handshake

off

Parity

none

The socket housing is electrically connected to the housing of the device.

Figure

Pin Function

1

TX.

Transmit Data

2

RX

Receive Data

3

N.C.

Not used

4

GND

Ground

Table 7: Pin assignment of the V.24 interface (M12 socket)

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Figure 2: Terminal cable for connecting an external Management Station

The Terminal cable is available as an accessory.
You will find a description of the V.24 interface in the “User Manual Basic

Configuration” document.
Wireless V.24

 Connecting the BATOne device allows you to automate the configuration

of a point-to-point WLAN line by connecting two devices directly via the

wireless V.24 interface.
You will find more information here:
– User Manual Configuration Guide

This document is available for download as a PDF file on the
Hirschmann product pages (www.hirschmann.com

).

The socket housing is electrically connected to the device casing. The V.24
interface is electrically insulated from the supply voltage.

 Only use a shielded cable.

Pins of the M12
socket on the device

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

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Pins of the M12 socket
on the device

Pin assignment for the
connection with a cable

Pins of the DB9 plug on
the external device

Table 9: 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 48

.

Pins of the M12 socket
on the device

Pin assignment for the
connection with a cable

Pins of the M12 socket on
the device

Table 10: 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)

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)

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1.9 Signal contact

The signal contact is a potential-free relay contact.
The device allows you to perform remote diagnosis via the signal contact. In
the process, the device signals events such as a line interruption. When an
event occurs, the device opens the relay contact and interrupts the closed
circuit. The management setting specifies which events switch a contact.
You can also use the management to switch the signal contact manually and
thus control external devices.

For more detail see

Signal contact on page 30

.

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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 the antennas
 Connecting the ferrite
 Connecting the power supply and signal lines
 Operating the device
 Connecting data cables
 Filling out the inscription label

2.1 Checkin g the package contents

Proceed as follows:

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

Scope of delivery on page 48

.

 Check the individual parts for transport damage.

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2.2 Installing and grounding the device

2.2.1 Installing the device

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 this ins truc tion can result in death, serious injury,
or equipment damage.

To protect the exposed uninstalled contacts of the components from dirt,
connect the individual system components in a dry and clean working area.

 Prepare the drill holes at the installation point.
 Mount the device on a level surface with four M6 screws.
 To preserve the suitability of your device for IP65/67, proceed as follows:
 Remove the provided transport protection caps and the transport

protection screws from the device.

 Seal unused sockets and plugs with your desired type of protection

screws which you can order separately.

2.2.2 Grounding the device
Grounding the device is b y m eans of a separate ground connection on the

device.
The overall shield of a connected shielded twisted-pair cable is conn ec ted to
the metal housing as a conductor.
The device variants have a connection for protective grounding.

Note: Use toothed washers to ensure good electrical conductivity at the
connection.

 Ground the device via the provided M4 screw.

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2.3 Installing the antennas

1

alternatively, depending on

device variant

For device variants with 2 WLAN modules:
3 × N socket for WLAN module 1

For device variants with 1 WLAN module:
Not present

1a

Antenna connection 1

1b

Antenna connection 2

1c

Antenna connection 3

2

alternatively, depending on

device variant

For device variants with 2 WLAN modules:
3 × N socket for WLAN module 2

For device variants with 1 WLAN module:
3 × N socket for WLAN module 1

2a

Antenna connection 1

2b

Antenna connection 2

2c

Antenna connection 3

Table 11: Antenna connections

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If you connect to 2 BATOne devices antennas to 2 WLAN modules, ensure
that there is a distance of at least 2 m between the BATOne 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 from 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.

2.4 Connecting the ferrite

To adhere to EMC conformity, you connect the ferrite supplied to the voltage
input via the power supply cable.

Note: To open the ferrite use the key supplied.

 Insert the power supply cable through the ferrite 1 time.
 Position the ferrite as close as possible to the voltage input (max. distance

19.7 inches (50 cm)).

 Lock the ferrite.

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2.5 Connecting the power supply and signal

lines

WARNING

ELECTRIC SHOCK

Before connecting the electrical wires, always ver

ify that the requirements

listed are complied with.

See Requirements for connecting electrical wires on page 7.

Failure to follow this ins truc tion can result in death, serious injury,

or equipment damage.

The supply voltage is electrically isolated from the casing.
You have the option of supplying the supply voltage redundantly, without load
distribution.

WARNING

ELECTRIC SHOCK

Using external Supply voltage cate

gory III requires external filter to ensure

category II.

See Requirements for connecting the supply voltage on page 8.

Failure to follow this ins truc tion can result in death, serious injury,

or equipment damage.

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2.5.1 Sup ply voltage (100 V AC ... 240 V AC, 50 Hz / 60 Hz)
Two 3-pin 7/8" plugs are available for the power supply to the device.

You find the prescribed tightening torque in

Technical data section on page

39.

The supply voltage is connected to the device casing through protective ele­ments exclusively.

Type and specification of
the supply voltage

Connections

Rated voltage range AC
100 V ... 240 V, 50 Hz / 60 Hz

L

Outer conductor

Voltage range AC incl. maximum
tolerances
88

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

PE

Protective conductor

N

Neutral conductor

Connect the electrical wires to the socket according to the pin assignment.

2.5.2 Si gnal contact
A 5-pin M12 plug is available as a signal contact.

You find the prescribed tightening torque in

Technical data section on page

39.

Depending on the device variant, the signal contact lines are laid in the
power supply plug or in a special plug.

Connection assignments

1 — 2

Signal contact

3

—

4

—

5

Signal contact

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2.6 Operating the device

WARNING

ELECTRIC SHOCK

Before connecting the electrical wires, always

verify that the requirements

listed are complied with.

See Requirements for connecting electrical wires on page 7.

Failure to follow this ins truc tion can result in death, serious injury,

or equipment damage.

By connecting the supply voltage via a connector, you start the operation of
the device.
Proceed as follows:

 Connect the power supply cable.
 Enable the supply voltage.

2.7 Connecting data cables

Note the following general recommendations for data cable connections in
environments with high electrical interference levels:

 Keep the length of the data cables as short as possible.
 Use optical data cables for the data transmission between the buildings.
 When using copper cables, provide a sufficient separation between the

power supply cables and the data cables. Ideally, install the cables in

separate cable channels.

 Verify that power supply cables and data cables do not run parallel over

longer distances, and that ideally they are installed in separate cable

channels. If reducing the inductive coupling is necessary, verify that the

power supply cables and data cables cross at a 90° angle.

 Use SF/UTP cables as per ISO/IEC 11801:2002.
 Connect the data cables according to your requirements.

For more detail see

Ethernet ports on page 19

.

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2.8 Filling out the inscripti on label

The information field for the IP address helps you identify your device.

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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 HiD isc overy protocol in the applications -HiDiscovery
 Configuration via BOOTP
 Configuration via DHCP (Option 82)
 AutoConfiguration Adapter

 Default settings

 IP address: The device looks for the IP address using DHCP
 Management password:

user, password: public (read only)
admin, password: private (read/write)

 Switch V.24 data rate: 9600 Baud
 Wireless V.24 data rate: 115200 Baud
 Ethernet ports: link status is not evaluated (signal contact)
 Optical ports: Full duplex

TP ports: Autonegotiation

 RSTP (Rapid Spanning Tree) activated

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4 Monitoring the ambient air temperature

Operate the device below the specified maximum ambient air temperature
exclusively.

See Technical data on page 39

.

The ambient air temperature is the temperature of the air at a distance of 2 in
(5 cm) from the device. It depends on the installation conditions of the device,
e.g. the distance from other devices or other objects, and the output of
neighboring devices.

The temperature displayed in the CLI and the GUI is the internal temperature
of the device. It is higher than the ambient air temperature. The maximum
internal temperature of the device named in the technical data is a guideline
that indicates to you that the maximum ambient air temperature has possibly
been exceeded.

If the ambient temperature exceeds the normal operating range of the
equipment, additional protective measures are recommended.

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5 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 overvoltage 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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6 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 add it ional ben ef its . You find inf ormation

and software downloads on the Hirschmann product pages on the

Internet (www.hirschmann.com

).

Note: You find information on settling complaints on the Internet at

www.beldensolutions.com/en/Service/Reparaturen/index.phtml

.

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7 Disassembly

WARNING

ELECTRIC SHOCK

Disconnect the grounding only after disconnecting all other cables.

Failure to follow this ins truc tion can result in death, serious injury,

or equipment damage.

 Disconnect the data cables .
 Disable the supply voltage.
 Disconnect the power supply cables and signal lines.
 Remove the antennas.
 Disconnect the grounding.

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8 Technical data

8.1 General technical data

Dimensions
W × H × D

BATOne

See Dimension drawings on page 41.

Weight

approx. 7.5 kg

Mounting
Flat surface mounting

Screw type

M6

Power supply
Supply voltage

Rated voltage range AC

100 V ... 240 V, 50 Hz / 60 Hz

Voltage range AC incl.
maximum tolerances

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

Connection type
3-pin, 7/8" connector

Tightening torque

22 lb-in (2.5 Nm)

Power loss buffer

> 10 ms at 93.5 V AC

Overload current
protection at input

Non-replaceable fuse

Back-up fuse
Nominal rating:

1 A ... 20 A

Characteristic:

slow blow

Peak inrush current

< 3.5 A

Signal contact

Switching current

max. 1 A

Switching voltage

max. 60 V DC
max. 30 V AC

Connection type
5-pin M12 connector

Tightening torque

5.3 lb-in (0.6 Nm)

Climatic conditions
during operation

Minimum clearance
around the device

Top and bottom sides of device: 1.97 in
(5

cm)

Left and right sides of device: 1.97

in

(5 cm)

Deratinga:
5

K at the following clearance:

Top and bottom sides of device: 0

in

Left and right device side: 0

in

Ambient air
temperature

b

Devices with operating temperature
characteristic

(standard):

−40 °F ... +140 °F ( −40 °C ... +60 °C)

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Devices with operating temperature
characteristic

value EEC (extended):

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

Maximum inner
temperature of device
(guideline)

Devices with operating temperature
characteristic

(standard):

90 °C

Devices with operating temperature
characteristic value

EEC (extended):

95 °C

Humidity

5 % ... 100 %
(also in condensing atmospheres)c

Air pressure

minimum 700 hPa (+9842 ft; +3000 m)
maximum 1060 hPa ( −1312 ft; −400 m)

Climatic conditions
during storage

Ambient air
temperatureb

−40 ºF ... +185 ºF (−40 ºC . .. +85 ºC)

Humidity

5 % ... 100 %
(also in condensing atmospheres)d

Air pressure

minimum 700 hPa (+9842 ft; +3000 m)
maximum 1060 hPa ( −1312 ft; −400 m)

Pollution degree

2

Protection classes
Laser protection

Class 1 in compliance with IEC 60825-1

Degree of protection

IP65/67e

a. Reduction of the maximum permitted ambient air temperature under specific conditions
b. Temperature of the ambient air at a distance of 2 in (5 cm) from the device
c. Remove the provided transport protection caps and the transport protecti on screws from the

device. Seal unused sockets and plugs with your desired type of protection screws which you
can order separately.

d. Remove the provided transport protection caps and the transport protection s crews from the

device. Seal unused sockets and plugs with your desired type of protection screws which you
can order separately.

e. To preserve the suitability of your device for IP65/67, proceed as follows: Remove all provided

transport protection caps and transport protection screws. Seal unused sockets and plugs with
your desired type of protection screws which you can order separately.

8.2 Power consumption/power output

Conditions

Maximum
power consump tion

Power output

Equipped with 1 WLAN module

TBD

TBD Btu (IT)/h

Equipped with 2 WLAN modules

23 W

78.5 Btu (IT)/h

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8.3 Dimension drawings

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8.4 Radio technology

Antenna connection

For each WLAN module: 3 × N socket

Range

Depending on the antenna used, frequency range and data rate

Encryption

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

hardware-accelerated AES

 Closed Network
 WEP 64

a

 WEP 128

b

 WEP 152

c

 User authentication
 802.1x/EAP
 LEPS
 WPA1/TKIP

d

 For more information, see the HiLCOS data sheet.

Frequency range

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

5180 MHz to 5825 MHz

Modulation
technology

 OFDM: BPSK , QPSK, 16-QA M, 64-QAM, 256-QAM



DSSS/CCK

Radio topology

WLAN Access-Point, Bridge-, Router-, Point-to-Point-, Client-,
Client-Bridge-Mode

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.

8.5 Roaming

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

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8.6 Receivi ng sensitivity , transmit power, and

data rate of the WLAN m odule version EWLAN1

The values shown in the following tables are the maximum values of the
WLAN module version EWLAN1. The values are in no case to be perceived
as a guaranteed property of the overall product. For some country profiles,
the module reduces data rate and transmit power automatically. The reason
for this are national standards.

8.6.1 IEEE 802.11b

IEEE 802.
Frequency range 2.412 GHz to 2.472 GHz
Data rate Typical transmit power Typical receiving sensitivity

1 Mbit/s 19 dBm −94 dBm
11 Mbit/s 19 dBm −94 dBm

8.6.2 IEEE 802.11g

IEEE 802.11g
Frequency range 2.412 GHz to 2.472 GHz
Data rate Typical transmit power Typical receiving sensitivity

6 Mbit/s 22 dBm −94 dBm
9 Mbit/s 22 dBm −94 dBm
12 Mbit/s 22 dBm −90 dBm
18 Mbit/s 22 dBm −89 dBm
24 Mbit/s 22 dBm −85 dBm
36 Mbit/s 21 dBm −82 dBm
48 Mbit/s 20 dBm −78 dBm
54 Mbit/s 19 dBm −77 dBm

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8.6.3 IEEE 802.11a

IEEE 802.11a
Bandwidth 5.180 GHz to 5.825 GHz
Data rate Typical transmit power Typical receiving sensitivity

6 Mbit/s 16 dBm −93 dBm
9 Mbit/s 16 dBm −93 dBm
12 Mbit/s 16 dBm −93 dBm
18 Mbit/s 16 dBm −91 dBm
24 Mbit/s 16 dBm −88 dBm
36 Mbit/s 15 dBm −84 dBm
48 Mbit/s 13 dBm −80 dBm
54 Mbit/s 12 dBm −79 dBm

8.6.4 IEEE 802.11n

IEEE 802.11n
Frequency range 2.412 GHz to 2.472 GHz
Coding Typical transmit power Typical receiving sensitivity

MCS 0 18 dBm −87 dBm
MCS 1 18 dBm −90 dBm
MCS 2 18 dBm −86 dBm
MCS 3 18 dBm −82 dBm
MCS 4 18 dBm −79 dBm
MCS 5 16 dBm −75 dBm
MCS 6 16 dBm −73 dBm
MCS 7 15 dBm −72 dBm
MCS 8 22 dBm −87 dBm
MCS 9 21 dBm −90 dBm
MCS 10 22 dBm −86 dBm
MCS 11 21 dBm −82 dBm
MCS 12 16 dBm −79 dBm
MCS 13 16 dBm −75 dBm
MCS 14 15 dBm −73 dBm
MCS 15 15 dBm −72 dBm
MCS 16 23 dBm −87 dBm
MCS 17 23 dBm −90 dBm
MCS 18 23 dBm −86 dBm

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MCS 19 23 dBm −82 dBm
MCS 20 16 dBm −79 dBm
MCS 21 17 dBm −75 dBm
MCS 22 17 dBm −73 dBm
MCS 23 16 dBm −72 dBm

IEEE 802.11n
Frequency range 5.180 GHz to 5.825 GHz
Coding Typical transmit power Typical receiving sensitivity

MCS 0 17 dBm −92 dBm
MCS 1 17 dBm −91 dBm
MCS 2 17 dBm −89 dBm
MCS 3 17 dBm −84 dBm
MCS 4 17 dBm −81 dBm
MCS 5 15 dBm −77 dBm
MCS 6 14 dBm −75 dBm
MCS 7 14 dBm −73 dBm
MCS 8 20 dBm −92 dBm
MCS 9 20 dBm −91 dBm
MCS 10 19 dBm −89 dBm
MCS 11 20 dBm −84 dBm
MCS 12 18 dBm −81 dBm
MCS 13 15 dBm −77 dBm
MCS 14 15 dBm −75 dBm
MCS 15 14 dBm −73 dBm
MCS 16 21 dBm −92 dBm
MCS 17 21 dBm −91 dBm
MCS 18 21 dBm −89 dBm
MCS 19 21 dBm −84 dBm
MCS 20 16 dBm −81 dBm
MCS 21 15 dBm −77 dBm
MCS 22 14 dBm −75 dBm
MCS 23 14 dBm −73 dBm

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8.7 EMC and immunity

Note: You will find detailed information on the certificates and declarations
applying to your device in a separate overview.

EMC interference
emission

Standard
applications

Railway applications
(trackside)

Radiated emission

EN 55032

Class A

Class A

EN 61000-6-4

Fulfilled

Fulfilled

Conducted emission

EN 55032

AC supply
connection

Class A

Class A

EN 61000-6-4

AC supply
connection

Fulfilled

Fulfilled

EN 55032

Telecommunication
connections

Class B

Class B

EN 61000-6-4

Telecommunication
connections

Fulfilled

Fulfilled

EMC interference

immunity

Standard

applications

Railway

applications

(trackside)

Electrostatic discharge

EN 61000-4-2

Contact discharge

± 4 kV

± 6 kV

EN 61000-4-2

Air discharge

± 8 kV

± 8 kV

Electromagnetic field

EN 61000-4-3

80 MHz ... 6000 MHz

10 V/m

20 V/m

Fast transients (burst)

EN 61000-4-4

AC supply connection

± 2 kV

± 2 kV

EN 61000-4-4

Data line

± 1 kV

± 2 kV

Voltage surges - AC supply connection

EN 61000-4-5

line/ground

± 2 kV

± 2 kV

EN 61000-4-5

line/line

± 1 kV

± 1 kV

Voltage surges - data line

EN 61000-4-5

line/ground

± 1 kV

± 2 kV

Conducted disturbances

EN 61000-4-6

150 kHz ... 80 MHz

10 V

10 V

Power frequency magnetic fields

EN 61000-4-8

— 300 A/m

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8.8 Network range

The line lengths specified for the transceivers apply for the respective fiber
data (fiber attenuation and BLP/dispersion).

Product

code

M-SFP-...

Wave

length

Fiber

System

attenuation

Example for

F/O line

lengtha

Fiber

attenuat

-ion

BLPb/

dispers

-ion

-LX/LC...

SM 1310 nm

9/125
µm

0-9.5 dB

0-17.5 km

0.4 dB/km

3.5 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. Us i ng the bandwidth lengt h product is inappropriate for expansion calculations.

SM = Singlemode

Network range: 10/100/1000 Mbit/s twisted pair port

Length of a twisted pair segment

max. 328 ft (100 m) (for Cat5e cable)

Table 13: Twisted Pair

Stability

Standard

applications

Railway applications

(in vehicles)

IEC 60068-2-6, test Fc

Vibration

5 Hz ... 8.4 Hz with

0.14 in ( 3.5 mm)
amplitude

Operating

5 Hz ... 150 Hz,
Broadband noise
vertical: 1.0 m/s² (rms)

horizontal: 0.7 m/s² (rms)

8.4 Hz ... 150 Hz

with 1 g

Not operating:

5 Hz ... 150 Hz,
Broadband noise
vertical: 7.9 m/s² (rms)

horizontal: 5.5 m/s² (rms)

IEC 60068-2-27, test Ea

Shock

15 g, 11 ms

vertical: 30 m/s², 3 0 ms
horizontal: 50 m/s², 30 ms

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9 Scope of delivery, order num bers and

accessories

 Scope of delivery

Number

Article

1 ×

General safety instructions

1 ×

Device

1 × or 2 ×
(depending on the device variant)

7/8" connector, 3-pin

2 ×

premounted

50 Ω terminating resistor for sealing unused

antenna connections
(exclusively for device variants with 1 wireless

module)

4 ×

premounted

50 Ω terminating resistor for sealing unused

antenna connections
(exclusively for device variants with 2 wireless

modules)

1 × or 2 ×
premounted

Protection cap (7/8", plastic) for supply voltage
connection

1 × per WLAN module
premounted

Protection cap (plastic) for N socket

1 ×
premounted

Protection screw (M12, plastic) for signal contact

10 ×
Premounted

Protection cap (plastic) for M12 socket

Table 14: List of the scope of delivery

The order num bers correspond to the pr oduct codes of the dev ices. See

“Device name and product code” on page 15.

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 Accessories

Name

Order number

Terminal cable: M12 4pin to sub-D9-pin

943 902-001

Terminal cable: M12 plug, 8-pin on DB9 socket

942 087-001

AutoConfiguration Adapter ACA22-M12 (EEC)

942 125-001

M12 connector - ELWIKA 5012 PG7 -,5-pin, (M12 socket, “A”-coded)

933 175-100

M12 connector - shielded -,5-pin, (M12 socket, “A”-coded)

942 219-001

M12 connector, 4-pin, “D”-coded

934 445-001

7/8" connector, 3-pin

942 086-003

Protection screw for M12 socket, metal, IP65/67 (25 pieces)

942 057-001

Protection screw for M12 socket, plastic, IP65/67 (25 pieces)

942 057-002

Protection screw for M12 plug, metal, IP65/67 (10 pieces)

942 115-001

Connection cable with M12 connector, “D”-coded

934 497-00x

Transition M12 “D”-coded to RJ45

934 498-001

50 Ω terminating resistors for sealing unused antenna
connections, N (10 pieces)

942 118-001

Antenna cable BAT-CLB-2 N m-f

943 903-514

BAT-ANT-N-3AGN-IP67 (10 pcs.)

942 110-001

BAT Protector

943 903-373

SFP mounting tool for IP67 socket

942 079-001

Plug casing for IP67 plug acc. to IEC 61076-3-106

Available at

BTR NETCOM GmbH

Table 15: List of the accessories

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10 Underlying technical standards

Name

EN 55032

Electromagnetic compatibility of multimedia equipment – Emission
Requirements

EN 61000-6-2

Electromagnetic compatibility (EMC) – Part 6 -2: Generic standards –
Immunity for industrial environments

EN 61000-6-4

Electromagnetic compatibility (EMC) – Part 6 -4: Generic standards –
Emission standard for industrial environments

EN 60950-1

Information technology equipment – Safety – Part 1: General
requirements

EN 61131-2

Programmable controllers – Part 2: Equipment requirements and tests

EN 50121-4

Railway applications – EMC – Emission and immunity of the signaling
and telecommunications apparatus (Rail Trackside)

EN 300 328

Electromagnetic compatibility and radio spectrum matters (E RM) -

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)

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

Table 16: List of the technical standards

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

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.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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