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Technical support
https://hirschmann-support.belden.com
User Manual
Installation
Industrial Ethernet BOBCAT Rail Switch
BRS20/22/30/32/40/42/50/52
10/13/21
Installation BRS20/22/30/32/40/42/50/52
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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.
© 2021 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:
https://www.doc.hirschmann.com
Hirschmann Automation and Control GmbH
Stuttgarter Str. 45-51
72654 Neckartenzlingen
Germany
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Contents
Important information 6
Safety instructions 8
About this manual 21
Key 22
1 Description 23
1.1 General device description 23
1.2 Device name and product code 24
1.3 Device views 29
1.3.1 Front view 29
1.3.2 Rear view 32
1.4 Power supply 33
1.4.1 Supply voltage with characteristic value T 33
1.4.2 Supply voltage with characteristic value F 33
1.4.3 Supply voltage with characteristic value U 33
1.4.4 Supply voltage with characteristic value P 33
1.5 Ethernet ports 34
1.5.1 10/100 Mbit/s twisted pair port 34
1.5.2 10/100/1000 Mbit/s twisted pair port 34
1.5.3 100 Mbit/s F/O port 35
1.5.4 100/1000 Mbit/s F/O port 36
1.5.5 100/1000/2500 Mbit/s F/O port 36
1.5.6 Support of PoE(+) 37
1.6 Display elements 38
1.6.1 Device state 38
1.6.2 Port status 39
1.7 Management interfaces 42
1.7.1 Signal contact 42
1.7.2 USB-C interface 43
1.7.3 Digital input 44
2 Installation 45
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2.1 Checking the package contents 45
2.2 Installing and grounding the device 45
2.2.1 Installing the device onto the DIN rail 45
2.2.2 Grounding the device 47
2.2.3 Connecting the ferrite (optional) 47
2.3 Installing an SFP transceiver (optional) 48
2.4 Connecting the terminal blocks 48
2.4.1 Power supply 48
2.4.2 Signal contact (optional) 53
2.4.3 Digital input (optional) 54
2.5 Operating the device 55
2.6 Connecting data cables 56
2.7 Filling out the inscription label 56
3 Making basic settings 57
3.1 First login (Password change) 58
4 Monitoring the ambient air temperature 59
5 Maintenance and service 60
6Disassembly 61
6.1 Removing an SFP transceiver (optional) 61
6.2 Removing the device 62
7 Technical data 63
7.1 General data 63
7.2 Supply voltage 67
7.3 Power consumption/power output 69
7.4 Signal contact 70
7.5 Digital input 71
7.6 Climatic conditions during operation 72
7.7 Climatic conditions during storage 73
7.8 Dimension drawings 74
7.8.1 Device variants with casing with characteristic
value C (plastic casing) 74
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7.8.2 Device variants with casing with characteristic
value E/D (metal casing) 77
7.9 Immunity 80
7.10 Electromagnetic compatibility (EMC) 80
7.11 Network range 82
7.11.1 10/100/1000 Mbit/s twisted pair port 82
7.11.2 Fast Ethernet SFP transceiver 82
7.11.3 Gigabit Ethernet SFP transceiver 83
7.11.4 2.5 Gigabit Ethernet SFP transceiver 85
7.11.5 Bidirectional Fast Ethernet SFP transceiver 85
7.11.6 Bidirectional Gigabit Ethernet SFP transceiver 86
7.12 Derating due to SFP transceiver 87
7.12.1 Fast Ethernet SFP transceiver 87
7.12.2 Gigabit Ethernet SFP transceiver 88
7.12.3 2.5 Gigabit Ethernet SFP transceiver 89
7.12.4 Bidirectional Fast Ethernet SFP transceiver 89
7.12.5 Bidirectional Gigabit Ethernet SFP transceiver 90
8 Scope of delivery 91
9 Accessories 92
9.1 General accessories 92
9.2 Order numbers for standard variants 92
9.3 Fast Ethernet SFP transceiver 94
9.4 Gigabit Ethernet SFP transceiver 95
9.5 2.5 Gigabit Ethernet SFP transceiver 96
9.6 Bidirectional Fast Ethernet SFP transceiver 96
9.7 Bidirectional Gigabit Ethernet SFP transceiver 97
10 Underlying technical standards 98
A Further support 99
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Important information
Note: Read these instructions carefully, and familiarize yourself with the
device before trying to install, operate, or maintain it. The following notes may
appear throughout this documentation or on the device. These notes warn of
potential hazards or call attention to information that clarifies or simplifies a
procedure.
Symbol explanation
This is a general warning symbol. This symbol alerts you to
potential personal injury hazards. Observe all safety notes that
follow this symbol to avoid possible injury or death.
If this symbol is displayed in addition to a safety instruction of the
type “Danger” or “Warning”, it means that there is a danger of
electric shock and failure to observe the instructions will
inevitably result in injury.
This symbol indicates the danger of hot surfaces on the device.
In connection with safety instructions, non-observance of the
instructions will inevitably result in injuries.
DANGER
DANGER draws attention to an immediately dangerous situation, which will
inevitably result in a serious or fatal accident if not observed.
WARNING
WARNING indicates a potentially hazardous situation which, if not avoided,
could result in death or serious injury.
CAUTION
CAUTION indicates a possible danger which, if not avoided, may result in
minor injuries.
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NOTICE
NOTE provides information about procedures that do not involve the risk of
injury.
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Safety instructions
Strain relief
Note: If the strain relief is insufficient, there is a potential risk of torsion,
contact problems and creeping interruptions.
Relieve the connection points of cables and lines from mechanical
stress.
Design strain reliefs in such a way that they help prevent any
mechanical damage to cables, wires or conductors caused by external
influences or their own weight.
To help prevent damage to device connections, connectors and
cables, follow the instructions for proper installation in accordance with
DIN VDE 0100-520:2013-06, sections 522.6, 522.7 and 522.13.
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 device, turn off the supply voltage and return the
device to Hirschmann for inspection.
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 this instruction can result in death, serious injury, or
equipment damage.
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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 63.
Connect to the product only components suitable for the requirements
of the specific application case.
Installation site requirements
Install this device only in a switch cabinet or in an operating site with
restricted access, to which maintenance staff have exclusive access.
When you are selecting the installation location, make sure you
observe the climatic threshold values specified in the technical data.
Use the device in an environment with a maximum pollution degree
that complies with the specifications in the technical data.
See “Technical data” on page 63.
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.
WARNING
FIRE HAZARD
If you connect the device to a power supply that does NOT meet the
requirements for Limited Power Source, NEC Class 2 or PS2 according to
IEC/EN 62368-1 and is NOT limited to 100 W output power, the device
must be installed in either a switch cabinet or other fire enclosure.
The fire enclosure can be made of metal or plastic with fire-protection
properties of at least V-1 according to IEC 60695-11-10. Bottom openings
of the fire enclosure must NOT exceed 2 mm in diameter.
Failure to follow these instructions can result in death, serious injury,
or equipment damage.
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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.
Device casing
Only technicians authorized by the manufacturer are permitted to open
the casing.
Shielding ground
The shielding ground of the connectable twisted pair cables is connected
to the ground connection as a conductor.
Beware of possible short circuits when connecting a cable section with
conductive shielding braiding.
Grounding the device
The device is grounded via the separate ground screw. The grounding
screw is located on the front right side of the device for narrow casing
sizes. For the medium and wide casing sizes, the grounding screw is
located at the bottom left of the front side of the device.
See “Dimension drawings” on page 74.
Ground the device before connecting any other cables.
Disconnect the grounding only after disconnecting all other cables.
Requirements for connecting electrical wires
Before connecting the electrical wires, always verify that the
requirements listed are complied with.
Requirements for connecting the signal contact
Before connecting the signal contact, 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.
Only use power supply cables that are suitable for a temperature 20 °C (36 °F)
higher than the maximum ambient air temperature at which the device is used.
Only use copper wire.
The following requirements apply without restrictions:
The voltage connected complies with the requirements for a safety extra-low voltage
(SELV) as per IEC 60950-1 or ES1 as per IEC/EN 62368-1.
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 63.
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Requirements for connecting the supply voltage
Before connecting the supply voltage, always verify that the requirements
listed are complied with.
Note: The devices can be supplied either via one voltage input or
redundantly via both voltage inputs.
Supply voltage
The supply voltage is connected to the device casing through protective
elements exclusively.
Prerequisites:
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 complies with the requirements for a safety extra-low voltage (SELV)
according to IEC 60950-1 or ES1 according to IEC/EN 62368-1.
The power supply has an easily accessible disconnecting device (for example 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 wire diameter of the power supply cable is at least 0.75 mm² (North America: AWG18)
on the supply voltage input.
The wire diameter of the power supply cable is at least 1 mm² (North America: AWG16) on
the supply voltage input for PoE device variants.
The cross-section of the ground conductor is the same size as or bigger than the cross-
section of the power supply cables.
Depending on the voltage input used (characteristic value F, T, U, P) and the supply voltage
used (DC, AC), the following additional requirements apply:
Device variants
featuring supply
voltage with
characteristic
value F, T, U
All of the following requirements are complied with:
Supply with DC voltage:
There are fuses suitable for DC voltage in the positive conductors of
the supply lines, or the voltage sources are appropriately current-
limited. Regarding the properties of this fuse: See “Technical data”
on page 63.
The negative conductors of the voltage inputs are on ground
potential.
Device variants
featuring supply
voltage with
characteristic value F
All of the following requirements are complied with:
Supply with AC voltage:
There are fuses in the supply lines, or the voltage sources are
appropriately current-limited. Regarding the properties of this fuse:
See “Technical data” on page 63.
The power sources are electrically isolated from the ground
potential.
Device variants
featuring supply
voltage with
characteristic value P
All of the following requirements are complied with:
There are fuses suitable for DC voltage in the positive conductors of
the supply lines, or the voltage sources are appropriately current-
limited. Regarding the properties of this fuse: See “Technical data”
on page 63.
The power sources are electrically isolated from the ground
potential. According to specification IEEE 802.3, the insulation
voltage must be 1500 V AC or 2250 V DC.
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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
National and international safety regulations
Verify that the electrical installation meets local or nationally applicable
safety regulations.
Relevant for use in explosion hazard areas (Hazardous
Locations, Class I, Division 2)
This equipment is exclusively suitable for use in Class I, Division 2,
Groups A, B, C, and D or non-hazardous locations.
This device is an open-type device that is to be installed in an enclosure
suitable for the environment and accessible exclusively with the use of a
tool.
Exclusively use the device for the application cases specified by the
manufacturer. Failure to follow these instructions can impair device
protection.
WARNING – EXPLOSION HAZARD – DO NOT DISCONNECT EQUIPMENT UNLESS
POWER HAS BEEN SWITCHED OFF OR THE AREA IS KNOWN TO BE NON-HAZARDOUS.
Avertissement - Risque d'explosion - Ne pas débrancher tant que le circuit est sous tension à
moins que l'emplacement soit connu pour ne contenir aucune concentration de gaz
inflammable.
WARNING - EXPLOSION HAZARD - SUBSTITUTION OF ANY COMPONENT MAY IMPAIR
SUITABILITY FOR CLASS I, DIVISION 2.
Avertissement - Risque d'explosion - La substitution de tout composant peut rendre ce
matériel incompatible pour une utilisation en classe I, division 2.
The storage medium ACA22-USB-C (EEC) is mechanically secured to prevent the connection
from being disconnected.
Le dispositif de sauvegarde ACA22-USB-C (EEC)est fixé mécaniquement pour éviter toute
déconnexion de la connexion.
A USB cable for configuring the device may only be used in a non-explosive area.
Un câble USB pour la configuration de l'équipement ne doit être utilisé que dans une zone non
explosive.
WARNING!
Connection or disconnection in an explosive atmosphere could result in an explosion.
AVERTISSEMENT!
Avertissement - Le branchement ou le débranchement dans une atmosphère explosive peut
entraîner une explosion.
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Control Drawing for BRS devices according to Class I, Division 2 Hazardous Locations
Rev.: 3 Document No.: 000217023DNR Page 1/2
Ordinary Location,
Non-Hazardous Area,
Non-Explosive Atmosphere
Explosive Atmosphere
Class I, Division 2, Groups A, B,
C, D, T4
(**)
Hazardous Location
BRS - Industrial Ethernet
BOBCAT Rail Switch
(**) Temperature Code: T4
Ambient Temperature rating:
Ta: 0 °C to +60 °C for “S“ or “C“ temperature types
7Dí&WR&IRU³7³RU³(³WHPSHUDWXUHW\SHV
(Refer to the type designation on the device.)
(*) Associated apparatus:
7KHQRQLQFHQGLYH¿HOGZLULQJFLUFXLWFRQFHSWDOORZVLQWHUFRQQHFWLRQ
RIQRQLQFHQGLYH¿HOGZLULQJDSSDUDWXVDQGDVVRFLDWHGQRQLQFHQGLYH
¿HOGZLULQJDSSDUDWXVXVLQJDQ\RIWKHZLULQJPHWKRGVSHUPLWWHGIRU
XQFODVVL¿HGORFDWLRQVZKHQFHUWDLQSDUDPHWULFFRQGLWLRQVDUHPHW
Capacity: C
a
&
i
+ C
Cable
; Inductivity: L
a
/
i
+ L
Cable
The ACA22-USB-C (EEC) storage medium is mechanically secured
to prevent disconnection.
$86%FDEOHIRUFRQ¿JXUDWLRQWKHGHYLFHPD\H[FOXVLYHO\EHXVHGLQ
non-hazardous locations.
WARNING!
&RQQHFWLRQRUGLVFRQQHFWLRQLQDQH[SORVLYHDWPRVSKHUH
FRXOGUHVXOWLQDQH[SORVLRQ
7KHPD[LPXPFDEOHOHQJWKKDVWREHGHWHUPLQHGDVIROORZV
DPD[FDEOHOHQJWK< (L
a
í/
i
) / Cable
L
(“Cable
L
“ denotes the inductance per unit length of used cable)
and
EPD[FDEOHOHQJWK< (C
a
í&
i
) / Cable
C
(“Cable
C
“ denotes the capacitance per unit length of used cable)
The lower value of (a) and (b) is to apply.
Relay contacts:
(TXLSPHQWZLWKQRQLQFHQGLYH¿HOGZLULQJSDUDPHWHUV
Polarity is not relevant.
The relay terminals are dependent upon the following entity parame-
ters
(*)
:
9PD[ ,PD[ C
i
L
i
30 V 90 mA
2 nF
1 μH
USB
Relay
The earth conductor
must be at least
the same wire size
(mm² or AWG) as the
supply conductors of
the supply voltage.
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Control Drawing for BRS devices according to Class I, Division 2 Hazardous Locations
Rev.: 3 Document No.: 000217023DNR Page 2/2
For use in Hazardous Locations Class I, Division 2, Groups A, B, C, D:
([FOXVLYHO\DOORZHGIRU%56PRGHO1RVZKLFKDUHLQGLYLGXDOO\ODEHOHG
“FOR USE IN HAZARDOUS LOCATIONS“.
7KLVHTXLSPHQWLVH[FOXVLYHO\VXLWDEOHIRUXVHLQ&ODVV,'LYLVLRQ*URXSV$%&DQG'RUQRQKD]DUGRXV
locations.
1RQLQFHQGLYH¿HOGZLULQJFLUFXLWVPXVWEHZLUHGLQDFFRUGDQFHZLWKWKH1DWLRQDO(OHFWULFDO&RGH
(NEC), NFPA 70, article 501.
WARNING – EXPLOSION HAZARD
6XEVWLWXWLRQRIDQ\FRPSRQHQWVPD\LPSDLUVXLWDELOLW\IRUKD]DUGRXVORFDWLRQVRUH[SORVLYHDWPRVSKHUHV
WARNING – EXPLOSION HAZARD
'RQRWGLVFRQQHFWHTXLSPHQWXQOHVVSRZHUKDVEHHQVZLWFKHGRႇRUWKHDUHDLVNQRZQWREHQRQKD]DUGRXV
7ˑ˒˜˒˜ˊ˗˘˙ˎ˗˝ˢ˙ˎˍˎ˟˒ˌˎ˝ˑˊ˝˒˜˝˘ˋˎ˒˗˜˝ˊ˕˕ˎˍ˒˗ˊ˗ˎ˗ˌ˕˘˜˞˛ˎ˜˞˒˝ˊˋ˕ˎ
ˏ˘˛˝ˑˎˎ˗˟˒˛˘˗˖ˎ˗˝ˊ˗ˍˊˌˌˎ˜˜˒ˋ˕ˎˎˡˌ˕˞˜˒˟ˎ˕ˢˠ˒˝ˑ˝ˑˎ˞˜ˎ˘ˏˊ˝˘˘˕
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ATEX directive 2014/34/EU – specific regulations for safe
operation
The following applies to BRS devices if you operate them in areas with
explosive gases according to ATEX directive 2014/34/EU:
List of standards:
EN IEC 60079-0:2018
EN 60079-7:2015 + A1:2018
EN IEC 60079-15:2019
Make sure that the device has the following label:
II 3G Ex ec nC IIC T4 Gc DEKRA 20ATEX0134 X
T4: 0 °C (+32 °F) ≤ Ta ≤ +60 °C (+140 °F) for "S" or "C"types
(position 16 of nomenclature breakdown)
T4: −40 °C (−40 °F) ≤ Ta ≤ +70 °C (+158 °F) for "T", "E" or "G"
types
(position 16 of nomenclature breakdown)
The equipment is suitable for use in an area with maximum pollution
degree 2, as defined in IEC 60664-1.
The modules shall be installed in a suitable enclosure in accordance
with IEC 60079-0 providing a degree of protection of at least IP54
according to IEC 60529, taking into account the environmental
conditions under which the equipment will be used.
When the temperature under rated conditions exceeds +70 °C
(+158 °F) at the cable or the conduit entry point, or +80 °C (+176 °F)
at the branching point of the conductors, take measures so that the
temperature specification of the selected cable and cable entries is in
compliance with the actual measured temperature values.
Connectors shall be connected or disconnected exclusively in dead-
voltage state.
When using the ACA22-USB-C (EEC) storage medium on the
USB interface, verify that the ACA22-USB-C (EEC) is
mechanically secured with the fastening screw. The ACA22-
USB-C (EEC) shall be connected or disconnected exclusively in
dead-voltage state. Only the ACA22-USB-C (EEC) may be
operated on the USB-C interface in potentially explosive
atmospheres.
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UK regulation S.I. 2016:1107
(as amended by S.I. 2019:696) - Schedule 3A, Part 6
The following applies to BRS devices if you operate them in areas with
explosive gases:
List of standards:
EN IEC 60079-0:2018
EN 60079-7:2015 + A1:2018
EN IEC 60079-15:2019
Make sure that the device has the following label:
II 3G Ex ec nC IIC T4 Gc DEKRA 21UKEX0040X
T4: 0 °C (+32 °F) ≤ Ta ≤ +60 °C (+140 °F) for "S" or "C"types
(position 16 of nomenclature breakdown)
T4: −40 °C (−40 °F) ≤ Ta ≤ +70 °C (+158 °F) for "T", "E" or "G"
types
(position 16 of nomenclature breakdown)
The equipment is suitable for use in an area with maximum pollution
degree 2, as defined in IEC 60664-1.
The modules shall be installed in a suitable enclosure in accordance
with IEC 60079-0 providing a degree of protection of at least IP54
according to IEC 60529, taking into account the environmental
conditions under which the equipment will be used.
When the temperature under rated conditions exceeds +70 °C
(+158 °F) at the cable or the conduit entry point, or +80 °C (+176 °F)
at the branching point of the conductors, take measures so that the
temperature specification of the selected cable and cable entries is in
compliance with the actual measured temperature values.
Connectors shall be connected or disconnected exclusively in dead-
voltage state.
When using the ACA22-USB-C (EEC) storage medium on the
USB interface, verify that the ACA22-USB-C (EEC) is
mechanically secured with the fastening screw. The ACA22-
USB-C (EEC) shall be connected or disconnected exclusively in
dead-voltage state. Only the ACA22-USB-C (EEC) may be
operated on the USB-C interface in potentially explosive
atmospheres.
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IECEx – Certification Scheme for Explosive Atmospheres
For BRS devices labeled with an IECEx certificate number, the following
applies:
List of standards:
IEC 60079-0:2017
IEC 60079-7:2017
IEC 60079-15:2017
Make sure that the device has the following label:
Ex ec nC IIC T4 Gc IECEx: DEK 20.0079 X
T4: 0 °C (+32 °F) ≤ Ta ≤ +60 °C (+140 °F) for “S“ or “C“ types
(position 16 of nomenclature breakdown) or
T4: −40 °C (−40 °F) ≤ Ta ≤ +70 °C (+158 °F) for “T“, “E“ or “G“
types
(position 16 of nomenclature breakdown)
The equipment is suitable for use in an area with maximum pollution
degree 2, as defined in IEC 60664-1.
The modules shall be installed in a suitable enclosure in accordance
with IEC 60079-0 providing a degree of protection of at least IP54
according to IEC 60529, taking into account the environmental
conditions under which the equipment will be used.
When the temperature under rated conditions exceeds +70 °C
(+158 °F) at the cable or the conduit entry point, or +80 °C (+176 °F)
at the branching point of the conductors, take measures so that the
temperature specification of the selected cable and cable entries is in
compliance with the actual measured temperature values.
Connectors shall be connected or disconnected exclusively in dead-
voltage state.
When using the ACA22-USB-C (EEC) storage medium on the
USB interface, verify that the ACA22-USB-C (EEC) is
mechanically secured with the fastening screw. The ACA22-
USB-C (EEC) shall be connected or disconnected exclusively in
dead-voltage state. Only the ACA22-USB-C (EEC) may be
operated on the USB-C interface in potentially explosive
atmospheres.
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CE marking
The labeled devices comply with the regulations contained in the following
European directive(s):
2011/65/EU and 2015/863/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.
2014/30/EU (EMC)
Directive of the European Parliament and of the Council on the
harmonisation of the laws of the Member States relating to
electromagnetic compatibility.
2014/34/EU (ATEX)
Directive of the European Parliament and the council on the
harmonisation of the laws of the Member States relating to equipment
and protective systems intended for use in potentially explosive
atmospheres.
The ATEX Directive applies exclusively to the device variants labeled
with an ATEX certificate number:
See “ATEX directive 2014/34/EU – specific regulations for safe
operation” on page 15.
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
You find the EU conformity declaration as PDF file for downloading on the
Internet at: https://www.doc.hirschmann.com/certificates.html
The device can be used in industrial environments.
Interference immunity: EN 61000-6-2
Emitted interference: EN 55032
You find more information on technical standards here:
“Technical data” on page 63
The assembly guidelines provided in these instructions must be strictly
adhered to in order to observe the EMC threshold values.
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Warning! This is a class A device. This device can cause interference in
living areas, and in this case the operator may be required to take
appropriate measures.
UKCA marking
The labeled devices comply with the following UK regulations:
S.I. 2012 No. 3032 Restriction of the Use of Certain Hazardous
Substances in Electrical and Electronical Equipment Regulations
S.I. 2016/1091 Electromagnetic Compatibility Regulations 2016
S.I. 2016/1107 Equipment and Protective Systems Intended for use in
Potentially Explosive Atmospheres Regulations 2016
Note:The regulation applies exclusively to the device variants labeled
with a UKEX certificate number: See “UK regulation S.I. 2016:1107
(as amended by S.I. 2019:696) - Schedule 3A, Part 6” on page 16.
The UKCA conformity declaration will be available to the relevant
authorities at the following address:
Belden UK Ltd.
1 The Technology Centre, Station Road
Framlingham, IP13 9EZ, United Kingdom
You find the UKCA conformity declaration as PDF file for downloading on
the Internet at: https://www.doc.hirschmann.com/certificates.html
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FCC note
Supplier's Declaration of Conformity
47 CFR § 2.1077 Compliance Information
Industrial Ethernet BOBCAT Rail Switch
BRS20/22/30/32/40/42/50/52
U.S. Contact Information
Belden – St. Louis
1 N. Brentwood Blvd. 15th Floor
St. Louis, Missouri 63105, United States
Phone: 314.854.8000
This device complies with part 15 of the FCC Rules. Operation is subject
to the following two conditions: (1) This device may not cause harmful
interference, and (2) this device must accept any interference received,
including interference that may cause undesired operation.
Note: This equipment has been tested and found to comply with the limits
for a Class A digital device, pursuant to part 15 of the FCC Rules. These
limits are designed to provide reasonable protection against harmful
interference when the equipment is operated in a commercial
environment. This equipment generates, uses, and can radiate radio
frequency energy and, if not installed and used in accordance with the
instruction manual, may cause harmful interference to radio
communications. Operation of this equipment in a residential area is likely
to cause harmful interference in which case the user will be required to
correct the interference at his own expense.
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.
Documentation mentioned in the “User Manual Installation” that is not
supplied with your device as a printout can be found as PDF files for
downloading on the Internet at: https://www.doc.hirschmann.com
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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 device description
The device is designed for the special requirements of industrial automation.
The device meets the relevant industry standards, provides very high
operational reliability, even under extreme conditions, and also long-term
reliability and flexibility.
The device allows you to set up switched Industrial Ethernet networks
according to standard IEEE 802.3.
You can choose from a wide range of variants. You have the option to set up
your device individually based on different criteria:
Number of ports
Transmission speed
Types of connectors
Temperature range
Supply voltage range
Certifications
Software level
IP degree of protection: IP30 (plastic casing) or IP30/IP40 (metal casing)
Mounting the device
Mounting on the DIN rail
You have the option of choosing various media to connect to the end devices
and other network components:
Twisted pair cable
Multimode F/O
Singlemode F/O
There are convenient options for managing the device. Manage your devices
via:
Web browser
SSH
Telnet
Network management software (for example Industrial HiVision)
The Network Management Software Industrial HiVision provides you with
options for smooth configuration and monitoring. You find further
information on the Internet at the Hirschmann product pages:
http://www.hirschmann.com/en/QR/INET-Industrial-HiVision
USB-C interface (locally on the device)
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The device provides 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 at: https://www.doc.hirschmann.com
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.
You have numerous options of combining the device characteristics. You can
determine the possible combinations using the configurator which is
available in the Belden Online Catalog https://catalog.belden.com on the web
page of the device.
Item Characteristic Character
istic value
Description
1 ... 3 Product BRS BOBCAT Rail Switch
4 Data rate 2 100 Mbit/s
3 100/1000 Mbit/s
4 1000 Mbit/s
5 1000/2500 Mbit/s
5 Hardware type 0 Standard
2PoE
6 (hyphen) –
7 ... 8 Number:
100 Mbit/s
ports
00 0 × 10/100 Mbit/s ports
04 4 × 10/100 Mbit/s ports
05 5 × 10/100 Mbit/s ports
06 6 × 10/100 Mbit/s ports
08 8 × 10/100 Mbit/s ports
09 9 × 10/100 Mbit/s ports
10 10 × 10/100 Mbit/s ports
11 11 × 10/100 Mbit/s ports
12 12 × 10/100 Mbit/s ports
16 16 × 10/100 Mbit/s ports
20 20 × 10/100 Mbit/s ports
24 24 × 10/100 Mbit/s ports
Table 1: Device name and product code
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9 ... 10 Number:
100/1000/
2500 Mbit/s
ports
00 0 × 100/1000 Mbit/s ports
04 4 × 100/1000 Mbit/s ports
08 8 × 100/1000 Mbit/s ports
12 12 × 100/1000 Mbit/s ports
12 12 × 8 × 100/1000-Mbit/s-Ports + 4 × 100/1000/
2500 Mbit/s
16 16 × 100/1000 Mbit/s ports
20 20 × 100/1000 Mbit/s ports
20 20 × 16 × 100/1000-Mbit/s ports + 4 × 100/1000/
2500 Mbit/s ports
24 24 × 100/1000 Mbit/s ports
24 24 × 20 × 100/1000-Mbit/s ports + 4 × 100/1000/
2500 Mbit/s ports
Item Characteristic Character
istic value
Description
Table 1: Device name and product code
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11 ... 12 Configuration
of the first
uplink ports
99 Identical to the standard ports or not present
Standard ports for BRS20/22/30/32:
10/100 Mbit/s
Standard ports for BRS40/42/50/52:
10/100/1000 Mbit/s
M2 1 × DSC multimode socket for 100 Mbit/s F/O
connections
M4 1 × DST multimode socket for 100 Mbit/s fiber optic
connections
S2 1 × DSC singlemode socket for 100 Mbit/s F/O
connections
S4 1 × DST singlemode socket for 100 Mbit/s fiber
optic connections
E2 1 × DSC singlemode (plus) socket for 100 Mbit/s
fiber optic connections
L2 1 × DSC singlemode (LH) socket for 100 Mbit/s
fiber optic connections
G2 1 × DSC singlemode (LH) socket for 100 Mbit/s
fiber optic connections, 200 km
Z6 1 × SFP slot for 100 Mbit/s F/O connections
MM 2 × DSC multimode socket for 100 Mbit/s F/O
connections
NN 2 × DST multimode socket for 100 Mbit/s fiber optic
connections
VV 2 × DSC singlemode socket for 100 Mbit/s F/O
connections
UU 2 × DST singlemode socket for 100 Mbit/s fiber
optic connections
EE 2 × DSC singlemode (plus) socket for 100 Mbit/s
fiber optic connections
LL 2 × DSC singlemode (LH) socket for 100 Mbit/s
fiber optic connections
GG 2 × DSC singlemode (LH) socket for 100 Mbit/s
fiber optic connections, 200 km
ZZ 2 × SFP slot for 100 Mbit/s F/O connections
OO 2 × SFP slot for 100/1000 Mbit/s F/O connections
2Q 2 × SFP slot for 100/1000/2500 Mbit/s fiber optic
connections
2T 2 × RJ45 socket for 10/100/1000 Mbit/s Twisted
Pair connections
Item Characteristic Character
istic value
Description
Table 1: Device name and product code
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13 ... 14 Configuration
of the second
uplink ports
99 Identical to the standard ports or not present
Standard ports for BRS20/22/30/32:
10/100 Mbit/s
Standard ports for BRS40/42/50/52:
10/100/1000 Mbit/s
M2 1 × DSC multimode socket for 100 Mbit/s F/O
connections
M4 1 × DST multimode socket for 100 Mbit/s fiber optic
connections
S2 1 × DSC singlemode socket for 100 Mbit/s F/O
connections
S4 1 × DST singlemode socket for 100 Mbit/s fiber
optic connections
E2 1 × DSC singlemode (plus) socket for 100 Mbit/s
fiber optic connections
L2 1 × DSC singlemode (LH) socket for 100 Mbit/s
fiber optic connections
G2 1 × DSC singlemode (LH) socket for 100 Mbit/s
fiber optic connections, 200 km
Z6 1 × SFP slot for 100 Mbit/s F/O connections
ZZ 2 × SFP slot for 100 Mbit/s F/O connections
OO 2 × SFP slot for 100/1000 Mbit/s F/O connections
2Q 2 × SFP slot for 100/1000/2500 Mbit/s fiber optic
connections
2T 2 × RJ45 socket for 10/100/1000 Mbit/s Twisted
Pair connections
15 (hyphen) –
16 Temperature
range
S Standard 0 °C ... +60 °C (+32 °F ... +140 °F)
C Standard
with Conformal
Coating
0 °C ... +60 °C (+32 °F ... +140 °F)
T Extended -40 °C ... +70 °C (-40 °F ... +158 °F)
E Extended
with Conformal
Coating
-40 °C ... +70 °C (-40 °F ... +158 °F)
G Extended with
Conformal Coating,
glued
-40 °C ... +70 °C (-40 °F ... +158 °F)
17 Supply voltage T 2 × 12 V DC ... 24 V DC
U2×24VDC
F 2 × 24 V DC ... 48 V DC / 24 V AC
P 2 × 48 V DC (PoE) / 54 V DC (PoE+)
18 Housing C IP30 Plastic
DIP30Metal
EIP40Metal
Item Characteristic Character
istic value
Description
Table 1: Device name and product code
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19 Certificates
and
declarations
a
Part A
Z CE, FCC, EN 61131-2, EN 62368-1, (NEMA TS2
b
)
Y Z + cUL 61010
X cUL 61010 + ANSI/UL 121201
V Z + IEC 61850-3
U Z + DNV GL
W Z+ATEX/IECEx
S Z + DNV GL + extended ship approval
T Z + EN 50121-4
20 Certificates
and
declarations
Part B
9 Not present
Y cUL 61010
X cUL 61010 + ANSI/UL 121201
V IEC 61850-3
U DNV
W ATEX/IECEx
S Z + DNV GL + extended ship approval
T EN 50121-4
21 Software
packages
9 Reserved
22 ... 23 Customer-
specific version
HH Hirschmann
24 Hardware
configuration
S Standard
25 Software
configuration
E Entry (without configuration)
PPROFINET
26 Software level S HiOS Layer 2 Standard
A HiOS Layer 2 Advanced
27 ... 31 Software
version
08.7. Software version 08.7.
XX.X Current software version
32 ... 33 Maintenance 00 Bugfix version 00
XX Current bugfix version
a. You will find detailed information on the approvals and self-declarations applying to your
device in the data sheet. You will find the data sheet on the Hirschmann product pages
www.hirschmann.com
b. Applies exclusively to device variants with extended temperature range.
Item Characteristic Character
istic value
Description
Table 1: Device name and product code
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1.3 Device views
1.3.1 Front view
Example of a device variant with 4 ... 6 ports without PoE
1 6-pin terminal block with screw lock for redundant power supply and signal contact
2 2-pin terminal block with screw lock for the digital input
3 depending on device variant
SFP slot for 100 Mbit/s F/O connections
DSC or DST singlemode socket for 100 Mbit/s fiber optic connections
DSC or DST multimode socket for 100 Mbit/s fiber optic connections
Not present
4 RJ45 socket for 10/100 Mbit/s Twisted pair connections
5 Grounding screw
6 Rail lock slide for DIN rail mounting
7 Label area for IP address
8,10 LED display elements for port status
9 USB-C interface
11 LED display elements for device status
1
2
3
4
5
6
ACA
Status
Power
Input
+
-
z
z
RELAY
0V 0V+24V(P1) +24V(P2)
IP-ADDRESS
USB
x
BRS20
1
3
4
56
7
8
9
10
11
2
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Example of a device variant with 8 ... 12 ports with PoE
1 LED display elements for device status
2 2-pin terminal block with screw lock for the digital input
3 6-pin terminal block with screw lock for redundant power supply and signal contact
4 USB-C interface
5 depending on the device variants
BRS22/32
RJ45 socket for 10/100 Mbit/s Twisted pair connections
RJ45 socket with PoE support
BRS42/52
RJ45 socket for 10/100/1000 Mbit/s Twisted Pair connections
RJ45 socket with PoE support
6,10 LED display elements for port status
7 Rail lock slide for DIN rail mounting
8 Grounding screw
9 Label area for IP address
11 depending on the device variants
BRS22
SFP slot for 100 Mbit/s F/O connections
Not present
BRS32
SFP slot for 100/1000 Mbit/s fiber optic connections
RJ45 socket for 10/100/1000 Mbit/s Twisted Pair connections
BRS42
SFP slot for 100/1000 Mbit/s fiber optic connections
RJ45 socket for 10/100/1000 Mbit/s Twisted Pair connections
Not present
BRS52
SFP slot for 100/1000/2500 Mbit/s fiber optic connections
ACA
PoE
Status
Power
IP-ADDRESS
5
7
6
8
9
10
11
12
USB
z
P
0V 0V+24V(P2) +24V(P1)
RELAY
z
Input
+
-
x y
1
2
3
4
123
5
6
7
8
9
10
11
4
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Example of a device variant with 8 ... 24 ports without PoE
1 6-pin terminal block with screw lock for redundant power supply and signal contact
2 LED display elements for device status
3 LED display elements for port status
4 depending on the device variants
BRS20/30
4 × RJ45 socket for 10/100 Mbit/s twisted pair connections
These ports support full duplex only.
BRS40/50
4 × RJ45 socket for 10/100/1000 Mbit/s twisted pair connections
These ports support full duplex only.
Not present
5 USB-C interface
6 LED display elements for port status
1
2
3
4
5
7
6
8
9
10
11
12
17
19
18
20
13
15
14
16
21
22
23
24
IP-ADDRESS
+
-
z
EAM
Stat.
Power
Input
0V 0V
24V(P1)
+
24V(P2)
+
RELAY
USB
GE
GE
GE
GE
z
Label MAC-Address
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1.3.2 Rear view
7 depending on the device variants
BRS20/30
8 × RJ45 socket for 10/100 Mbit/s twisted pair connections
16 × RJ45 socket for 10/100 Mbit/s twisted pair connections
BRS40/50
8 × RJ45 socket for 10/100/1000 Mbit/s twisted pair connections
16 × RJ45 socket for 10/100/1000 Mbit/s twisted pair connections
8 Rail lock slide for DIN rail mounting
9 Grounding screw
10 Label area for IP address of device
11 Label area for MAC address of device
12 LED display elements for port status
13 depending on the device variants
BRS20
SFP slot for 100 Mbit/s F/O connections
DSC or DST singlemode socket for 100 Mbit/s fiber optic connections
DSC or DST multimode socket for 100 Mbit/s fiber optic connections
RJ45 socket for 10/100 Mbit/s Twisted pair connections
These ports support full duplex only.
Not present
BRS30
RJ45 socket for 10/100/1000 Mbit/s Twisted Pair connections
These ports support full duplex only.
SFP slot for 100/1000 Mbit/s F/O connections
BRS40
SFP slot for 100/1000 Mbit/s F/O connections
RJ45 socket for 10/100/1000 Mbit/s Twisted Pair connections
These ports support full duplex only.
BRS50
SFP slot for 100/1000/2500 Mbit/s fiber optic connections
14 2-pin terminal block with screw lock for the digital input
Device variants with casing characteristic
value C
Device variants with casing with
characteristic value E or D
1 Rail lock slide for DIN rail mounting
1
1
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1.4 Power supply
1.4.1 Supply voltage with characteristic value T
The following options for power supply are available:
6-pin terminal block
You will find information on connecting the supply voltage here:
See “Supply voltage with characteristic value T” on page 49.
1.4.2 Supply voltage with characteristic value F
The following options for power supply are available:
6-pin terminal block
You will find information on connecting the supply voltage here:
See “Supply voltage with characteristic value F” on page 50.
1.4.3 Supply voltage with characteristic value U
The following options for power supply are available:
6-pin terminal block
You will find information on connecting the supply voltage here:
See “Supply voltage with characteristic value U” on page 51.
1.4.4 Supply voltage with characteristic value P
The following options for power supply are available:
6-pin terminal block
You will find information on connecting the supply voltage here:
See “Supply voltage with characteristic value P” on page 52.
These device variants support PoE(+).
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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).
1.5.1 10/100 Mbit/s twisted pair port
This port is an RJ45 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
10 Mbit/s half-duplex mode, 10 Mbit/s full duplex mode
100 Mbit/s half-duplex mode, 100 Mbit/s full duplex mode
Delivery state: Autonegotiation activated
The port casing is electrically connected to the front panel.
The pin assignment corresponds to MDI-X.
Note: Some ports support full duplex mode only: See “Example of a device
variant with 8 ... 24 ports without PoE” on page 31.
1.5.2 10/100/1000 Mbit/s twisted pair port
This port is an RJ45 socket.
The 10/100/1000 Mbit/s twisted pair port allows you to connect network
components according to the IEEE 802.3 10BASE-T/100BASE-TX/
1000BASE-T standard.
This port supports:
Autonegotiation
Autopolarity
Autocrossing
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 port casing is electrically connected to the front panel.
The pin assignment corresponds to MDI-X.
Note: Some ports support full duplex mode only: See “Example of a device
variant with 8 ... 24 ports without PoE” on page 31.
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Pin assignment
1.5.3 100 Mbit/s F/O port
This port is a DST/DSC socket or an SFP slot.
The 100 Mbit/s F/O port allows you to connect network components
according to the IEEE 802.3 100BASE-FX standard.
This port supports:
100 Mbit/s, full duplex
Delivery state:
100 Mbit/s full duplex when using a Fast Ethernet SFP transceiver
RJ45 Pin 10/100 Mbit/s 1000/25000 Mbit/s PoE
MDI mode
1 TX+ BI_DA+ Negative V
PSE
2TX− BI_DA− Negative V
PSE
3 RX+ BI_DB+ Positive V
PSE
4— BI_DC+ —
5— BI_DC− —
6RX− BI_DB− Positive V
PSE
7— BI_DD+ —
8— BI_DD− —
MDI-X mode
1 RX+ BI_DB+ Negative V
PSE
2RX− BI_DB− Negative V
PSE
3 TX+ BI_DA+ Positive V
PSE
4— BI_DD+ —
5— BI_DD− —
6TX− BI_DA− Positive V
PSE
7— BI_DC+ —
8— BI_DC− —
Table 2: Pin assignment 10/100/1000/25000 Mbit/s twisted pair port, RJ45 socket,
MDI-X mode
1
2
3
4
5
6
7
8
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1.5.4 100/1000 Mbit/s F/O port
This port is an SFP slot.
The 100/1000 Mbit/s F/O port allows you to connect network components
according to standard IEEE 802.3 100BASE-FX/1000BASE-SX/1000BASE-
LX.
This port supports:
100 Mbit/s, full duplex
1000 Mbit/s full duplex
Delivery state:
100 Mbit/s full duplex when using a Fast Ethernet SFP transceiver
1000 Mbit/s full duplex when using a Gigabit Ethernet SFP transceiver
1.5.5 100/1000/2500 Mbit/s F/O port
This port is an SFP slot.
The 100 Mbit/s F/O port allows you to connect network components
according to the standard IEEE 802.3 100BASE-FX.
The port allows you to connect network components according to standard
IEEE 802.3 1000BASE-SX/1000BASE-LX.
The port allows you to connect network components according to
IEEE P802.3bz 2.5 Gbit/s.
This port supports:
100 Mbit/s full duplex
1000 Mbit/s full duplex
2500 Mbit/s full duplex
Delivery state:
100 Mbit/s full duplex when using a Fast Ethernet SFP transceiver
1000 Mbit/s full duplex when using a Gigabit Ethernet SFP transceiver
2500 Mbit/s full duplex when using a Gigabit Ethernet SFP transceiver
Example: Sending
direction
Receiving
direction
Table 3: Sending and receiving directions
Input
Power
Status
ACA
USB
1
2
3
4
5
6
7
8
9
10
11
IP-ADRESS
IP-ADRESS
USB
1
2
3
4
5
6
Power
Status
ACA
Input
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1.5.6 Support of PoE(+)
The device variants BRS22/32/42/52 support Power over Ethernet (PoE) and
Power over Ethernet Plus (PoE+).
PoE-capable Ethernet ports are designed as 8 × RJ45 sockets.
See “Front view” on page 29.
The port allows you to connect network components via a PoE voltage
source according to the standard IEEE 802.3af/at.
With the presence of the PoE power supply, a separate power supply for the
connected device is unnecessary.
The PoE power is supplied via the wire pairs transmitting the signal (phantom
voltage).
The individual ports are not electrically insulated from each other (common
PoE voltage).
For the maximum power available to PoE end devices in total, see the
technical data: See “Technical data” on page 63.
Note: Connect only PoE-powered devices whose data connections are
located in the interior of the building and are specified as SELV circuits
according to IEC 60950-1 or ES1 circuits according to IEC/EN 62368-1.
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1.6 Display elements
1.6.1 Device state
These LEDs provide information about conditions which affect the operation
of the whole device.
Figure 1: LED display elements for device status
LED Display Color Activity Meaning
Power Supply voltage — none Supply voltages 1 and 2 are too low.
yellow lights up Supply voltage 1 or 2 is on
flashes 4 times
a period
Software update is running. Maintain the
power supply.
green lights up Supply voltage 1 and 2 is on
Status Device Status — none Device starts
Device is not ready for operation
green lights up Device is ready for operation
Characteristics can be configured
red lights up Device is not ready for operation
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
red/
green
flashing
alternately
Device is in the recovery mode.
ACA Storage medium
ACA22-USB-C
(EEC)
— none No ACA connected
green lights up ACA is plugged
flashes 3 times
a period
Device writes to/reads from the storage
medium
yellow lights up ACA is not ready for operation
PoE — none Supply voltage is too low
yellow lights up Supply voltage is too low for PoE support.
green lights up PoE voltage is on
Table 4: Meaning of the device display elements
Power
Status
ACA
Power
Status
ACA
PoE
IP-ADDRESS
ACA
PoE
Status
Power
1
3
2
4
5
6
7
8
USB
P
0V 0V
+54V(P2)
+54V(P1)
RELAY
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1.6.2 Port status
These LEDs display port-related information.
Note:
For device variants with 4 × RJ45 sockets:
The LEDs are directly located at the ports.
See figure 2 on page 39.
For device variants with 8 × RJ45 sockets:
The LEDs are located on the right side of the device.
See figure 3 on page 40.
See figure 4 on page 40.
For device variants with ports that are DSC/DST sockets and SFP slots:
The LEDs are directly located at the ports.
See figure 3 on page 40.
See figure 4 on page 40.
Figure 2: LED display elements for device variants with 4 × RJ45 sockets
1
1
2
3
4
1
1
2
3
4
2
2
3
3
4
4
LS/DA
-
-
-
-
-
-
-
-
-
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Figure 3: LED display elements for device variants with DSC, DST and 8 × RJ45
sockets
Figure 4: LED display elements for device variants with SFP slots and 8 × RJ45
sockets
LS/DA
1
1
2
3
3
1
2
4
5
6
7
8
9
10
4
5
6
7
8
9
10
3
3
5
7
8
9
10
6
4
4
5
6
7
8
9
10
LS/DA
5
5
6
6
7
7
8
8
9
9
10
10
11
11
12
12
LS/DA
LS/DA
1
1
2
3
4
2
3
4
5
5
6
7
8
9
10
11
12
6
7
8
9
10
11
12
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Figure 5: LED display elements for a high port device variant with SFP slots and
20 × RJ45 sockets
Display Color Activity Meaning
L/D
Link status
Data traffic
— 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 flashing Device is transmitting and/or receiving data
flashes 3 times a period The device deactivates the relevant port
(auto-deactivation).
Table 5: Meaning of the port display elements
Input
+
-
IP-ADDRESS
5
7
6
8
9
10
11
12
USB
z
0V 0V+24V(P1) +24V(P2)
z
RELAY
x y
17
19
18
20
21
22
23
24
13
15
14
16
1
2
3
4
ACA
Stat.
Power
LS/DA
LS/DA
LS/DA
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1.7 Management interfaces
1.7.1 Signal contact
Figure 6: (1) Connection on the device, (2) terminal block mounted on the device
(front view), tightening torque, (3) terminal block mounted on the device
(view from above).
The signal contact is a potential-free relay contact. The signal contact is open
when the device is not connected to a power supply.
The signal contact allows you to control external devices or monitor device
functions.
In the configuration, you specify how the device uses the signal contact.
You will find detailed information on possible applications and the
configuration of the signal contact in the software user documentation. You
will find the software user documentation as PDF files on the Internet at
https://www.doc.hirschmann.com
4.4 lb-in
0.5 Nm
RELAY
1
2
3
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1.7.2 USB-C interface
Figure 7: (1) Position of the USB-C interface on the device, (2) pin assignment of
the USB-C interface, (3) view of the ACA22-USB-C (EEC).
The USB-C interface allows you to connect the AutoConfiguration Adapter
ACA22-USB-C (EEC) storage medium. It is used for saving/loading the
configuration data and diagnostic information, and for loading the software.
You have the option to configure your device using the USB-C interface. You
find detailed information in the software user documentation. You find the
software user documentation as PDF files on the Internet at http://
www.doc.hirschmann.com
The USB-C interface has the following properties:
Supports the USB master mode and slave
Supports USB 2.0 (data rate max. 480 Mbit/s)
Connector: type C
Supplies current of max. 500 mA
GND
-
-
V BUS
-
D-
D+
CC2
V BUS
-
-
GND
Name
Name
Pin
Pin
B12
B11
B10
B9
B8
B7
B6
B5
B4
B3
B2
B1
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
GND
-
-
V BUS
CC1
D+
D-
-
V BUS
-
-
GND
12 3
ACA22-USB-C (EEC)
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Voltage not electrically insulated
Supported file system: FAT32
Note: A USB cable is used exclusively for the configuration of your device.
Note:
The ACA22-USB-C (EEC) storage medium can remain permanently
connected to the device.
1.7.3 Digital input
Figure 8: (1) Connection on the device, (2) terminal block mounted on the device
(front view), tightening torque.
The digital input allows you to capture and forward signals from digital
sensors. In the configuration, you specify how the device uses the digital
input.
You will find detailed information on possible applications and the
configuration of the digital input in the software user documentation. You will
find the software user documentation as PDF files on the Internet at https://
www.doc.hirschmann.com
Note: For PoE device variants, the digital input is only available for device
variants with a wide casing.
See “General data” on page 63.
Input
+
-
4.4 lb-in
0.5 Nm
1
2
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2Installation
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
Connecting the ferrite (optional)
Installing an SFP transceiver (optional)
Connecting the terminal blocks
Connecting data cables
Filling out the inscription label
Making basic settings
2.1 Checking the package contents
Check whether the package includes all items named in the section
“Scope of delivery” on page 91.
Check the individual parts for transport damage.
2.2 Installing and grounding the device
2.2.1 Installing the device onto the DIN rail
Prerequisite:
Verify that the minimum clearance at the ventilation slots is maintained to
meet the climatic conditions during operation:
Minimum clearance at the ventilation slots: 5 cm (2 in).
Note: Decreasing the minimum clearance reduces the specified maximum
operating temperature.
See table 6 on page 46.
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Figure 9: Mounting on the DIN rail
Proceed as follows:
Slide the upper snap-in guide of the device into the DIN rail.
Push the device downwards and onto the DIN rail.
Snap-in the device.
Mounting Minimum clearance at
the ventilation slots
Temperature derating
Standard mounting (vertical) 5 cm (2 in) 0 °C (0 °F)
2 cm (0.8 in) 3 °C (5 °F)
0 cm (0 in) 15 °C (27 °F)
90° rotated mounting (horizontal) 0 cm (0 in) 15 °C (27 °F)
Table 6: Derating for different mounting positions
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2.2.2 Grounding the device
Figure 10: Position of the ground connection on the device; tightening torque.
All device variants have a functional ground connection.
Proceed as follows:
Ground the device via the ground screw.
2.2.3 Connecting the ferrite (optional)
Exclusively applies to device variants with 8 ... 12 ports and device variants
with DNV GL approval.
Device variants featuring supply voltage with characteristic value P do not
require ferrites.
To adhere to EMC conformity, connect the one of the supplied ferrites to the
voltage input via the power supply cable.
With redundant power supply, connect one of the supplied ferrites via both
power supply cables.
Proceed as follows:
Insert the power supply cable through the ferrite 2 times.
Position the ferrite as close as possible to the voltage input (max. distance
5cm (2in)).
4.4 lb-in
0.5 Nm
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2.3 Installing an SFP transceiver (optional)
Prerequisites:
Exclusively use Hirschmann SFP transceivers.
See “Accessories” on page 92.
Figure 11: Installing SFP transceivers: Installation sequence
Perform the following work steps:
Take the SFP transceiver out of the transport packaging (1).
Remove the protection cap from the SFP transceiver (2).
Push the SFP transceiver with the lock closed into the slot until it latches
in (3).
2.4 Connecting the terminal blocks
2.4.1 Power supply
Note: The supply voltage is connected to the device casing through
protective elements exclusively.
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Supply voltage with characteristic value T
Figure 12: (1) DC voltage connection on the device, (2) terminal block mounted on
the device (front view), tightening torque, (3) terminal block mounted on
the device (view from above).
For the supply voltage to be connected, perform the following steps:
Remove the terminal connector from the device.
Connect the wires according to the pin assignment on the device with
the clamps.
Fasten the wires in the terminal block by tightening the terminal
screws.
Mount the terminal block on the device using screws.
Type of the voltages
that can be
connected
Specification of the supply
voltage
Pin assignment
DC voltage Rated voltage range DC:
12 V DC ... 24 V DC
Voltage range DC incl.
maximum tolerances:
9.6 V DC ... 32 V DC
+24 V Plus terminal of the supply
voltage
0 V Minus terminal of the supply
voltage
Table 7: Supply voltage with characteristic value T: type and specification of the
supply voltage, pin assignment
+24 V(P1) +24 V(P2)
0V 0V
++
--
12 V DC ... 24 V DC 12 V DC ... 24 V DC
4.4 lb-in
0.5 Nm
1
2
3
RELAY
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Supply voltage with characteristic value F
Figure 13: (1) DC voltage connection on the device, (2) AC voltage connection on
the device, (3) terminal block mounted on the device (front view),
tightening torque, (4) terminal block mounted on the device (view from
above).
For the supply voltage to be connected, perform the following steps:
Remove the terminal connector from the device.
Connect the wires according to the pin assignment on the device with
the clamps.
Type of the voltages
that can be
connected
Specification of the supply
voltage
Pin assignment
DC voltage Rated voltage range DC:
24 V DC ... 48 V DC
Voltage range DC incl.
maximum tolerances:
18 V DC ... 60 V DC
+24 V Plus terminal of the supply
voltage
0 V Minus terminal of the supply
voltage
AC voltage Rated voltage AC:
24 V AC
Voltage range AC incl. maximum tolerances:
18 V AC ... 30 V AC, 50 Hz ... 60 Hz
Table 8: Supply voltage with characteristic value F: type and specification of the
supply voltage, pin assignment
4.4 lb-in
0.5 Nm
1
2
3
4
24 V AC 24 V AC
+24 V(P1) +24 V(P2)
0 V 0 V
G G
RELAY
+24 V(P1) +24 V(P2)
0V 0V
++
--
24 V DC ... 48 V DC
24 V DC ... 48 V DC
RELAY
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Fasten the wires in the terminal block by tightening the terminal
screws.
Mount the terminal block on the device using screws.
Supply voltage with characteristic value U
Figure 14: (1) DC voltage connection on the device, (2) terminal block mounted on
the device (front view), tightening torque, (3) terminal block mounted on
the device (view from above).
For the supply voltage to be connected, perform the following steps:
Remove the terminal connector from the device.
Connect the wires according to the pin assignment on the device with
the clamps.
Fasten the wires in the terminal block by tightening the terminal
screws.
Mount the terminal block on the device using screws.
Type of the voltages
that can be
connected
Specification of the supply
voltage
Pin assignment
DC voltage Rated voltage DC:
24 V DC
Voltage range DC incl.
maximum tolerances:
18 V DC ... 30 V DC
+24 V Plus terminal of the supply
voltage
0 V Minus terminal of the supply
voltage
Table 9: Supply voltage with characteristic value U: type and specification of the
supply voltage, pin assignment
ACA
PoE
Status
Power
IP-ADDRESS
USB
z
P
0V 0V+24V(P2) +24V(P1)
RELAY
z
Input
+
-
1
3
2
4
5
6
7
8
+24 V(P1) +24 V(P2)
0 V 0 V
1
2
3
4.4 lb-in
0.5 Nm
RELAY
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Supply voltage with characteristic value P
Figure 15: (1) DC voltage connection on the device, (2) terminal block mounted on
the device (front view), tightening torque, (3) terminal block mounted on
the device (view from above).
For the supply voltage to be connected, perform the following steps:
Remove the terminal connector from the device.
Connect the wires according to the pin assignment on the device with
the clamps.
Type of the voltages
that can be
connected
Specification of the supply
voltage
Pin assignment
When using PoE:
DC voltage
Rated voltage DC:
48 V DC
+ Plus terminal of the supply
voltage
Voltage range DC incl.
maximum tolerances:
46 V DC ... 57 V DC
- Minus terminal of the supply
voltage
When using PoE+: Rated voltage DC:
54 V DC
+ Plus terminal of the supply
voltage
Voltage range DC incl.
maximum tolerances:
52 V DC ... 57 V DC
- Minus terminal of the supply
voltage
Without using PoE or
PoE+:
DC voltage
Rated voltage range DC:
24 V DC ... 48 V DC
+ Plus terminal of the supply
voltage
Voltage range DC incl.
maximum tolerances:
19 V DC ... 60 V DC
- Minus terminal of the supply
voltage
Table 10: Supply voltage with characteristic value P: type and specification of the
supply voltage, pin assignment
ACA
PoE
Status
Power
1
2
3
4
IP-ADDRESS
2.5 GE
2.5 GE
GE
2.5 GE
2.5 GE
5
7
6
8
9
10
11
12
USB
z
P
0V 0V+54V(P2) +54V(P1)
RELAY
z
x y
+54 V(P1) +54 V(P2)
0 V 0 V
1
2
3
4.4 lb-in
0.5 Nm
RELAY
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Fasten the wires in the terminal block by tightening the terminal
screws.
Mount the terminal block on the device using screws.
2.4.2 Signal contact (optional)
Figure 16: (1) Connection on the device, (2) terminal block mounted on the device
(front view), tightening torque, (3) terminal block mounted on the device
(view from above).
Proceed as follows:
Connect the signal contact lines with the terminal block connections.
Fasten the wires in the terminal block by tightening the terminal screws.
Mount the terminal block on the device using screws.
4.4 lb-in
0.5 Nm
RELAY
1
2
3
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2.4.3 Digital input (optional)
Figure 17: (1) Connection on the device, (2) terminal block mounted on the device
(front view), tightening torque.
Proceed as follows:
Remove the terminal connector from the device.
Connect the wires according to the pin assignment on the device with the
clamps.
Fasten the wires in the terminal block by tightening the terminal screws.
Mount the terminal block on the device using screws.
Pin Signal, terminal Function
1 DI (+) Signal input
2DI (−) Reference potential
Table 11: Digital input: pin assignment
Input
+
-
4.4 lb-in
0.5 Nm
1
2
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Connection constellations of sensors
Figure 18: Connection of a sensor (3 pin) with separate power supply
1 - Sensor
2 - BRS20/22/30/32/40/42/50/52l
3 - Separate power supply for sensor
Figure 19: Connection of a sensor (2 pin) with separate power supply
1 - Sensor (2 pin sensor)
2 - BRS20/22/30/32/40/42/50/52l
3 - Separate power supply for sensor
2.5 Operating the device
When you connect the supply voltage, you start up the device.
O
+ 24 V
0 V
+ 24 V
0 V
+
-
Input
1
2
3
+24 V
0 V
+
-
Input
1
2
3
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2.6 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. If reducing the inductive coupling is necessary, verify
that the power supply cables and data cables cross at a 90° angle.
Use shielded data cables for gigabit transmission via copper cables. Only
use shielded data cables to meet EMC requirements according to
EN 50121-4 and marine applications.
See “Electromagnetic compatibility (EMC)” on page 80.
Connect the data cables according to your requirements.
See “Ethernet ports” on page 34.
2.7 Filling out the inscription label
The information field for the IP address helps you identify your device.
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3 Making basic settings
Note: 2 or more devices configured with the same IP address can cause
unpredictable operation of your network.
Install and maintain a process that assigns a unique IP address to every
device in the network.
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:
Input via the HiView or Industrial HiVision application. You find further
information about the applications HiView or Industrial HiVision on the
Internet at the Hirschmann product pages:
HiView
http://www.hirschmann.com/en/QR/INET-HiView
Industrial HiVision
http://www.hirschmann.com/en/QR/INET-Industrial-HiVision
Configuration via BOOTP
Configuration via DHCP (Option 82)
AutoConfiguration AdapterACA22-USB-C (EEC)
Configuration via USB-C interface
Default settings
IP address: The device looks for the IP address using DHCP
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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3.1 First login (Password change)
To help prevent undesired access to the device, it is imperative that you
change the default password during initial setup.
Perform the following steps:
Open the Graphical User Interface, the Command Line Interface, or
HiView the first time you log on to the device.
Log on to the device with the default password “private”. The device
prompts you to type in a new password.
Type in your new password.
To help increase security, choose a password that contains at least 8
characters which includes upper-case characters, lower-case characters,
numerical digits, and special characters.
When you log on to the device with the Command Line Interface, then the
device prompts you to confirm your new password.
Log on to the device again with your new password.
Note: If you lost your password, then use the System Monitor to reset the
password.
For further information see:
https://hirschmann-support.belden.com/en/kb/required-password-change-
new-procedure-for-first-time-login
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4 Monitoring the ambient air temperature
Operate the device below the specified maximum ambient air temperature
exclusively.
See “Climatic conditions during operation” on page 72.
The ambient air temperature is the temperature of the air at a distance of
5 cm (2 in) from the device. It depends on the installation conditions of the
device, for example the distance from other devices or other objects, and the
output of neighboring devices.
The temperature displayed in the CLI (Command Line Interface) and the GUI
(Graphical User Interface) 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.
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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 (http://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 find information on settling complaints on the Internet at http://
www.beldensolutions.com/en/Service/Repairs/index.phtml.
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6Disassembly
6.1 Removing an SFP transceiver (optional)
Figure 20: De-installing SFP transceivers: De-installation sequence
Perform the following work steps:
Open the locking mechanism of the SFP transceiver (1).
Pull the SFP transceiver out of the slot via the open locking
mechanism (2).
Close the SFP transceiver with the protection cap (3).
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6.2 Removing the device
Figure 21: Removal from the DIN rail
Proceed as follows:
Disconnect the data cables.
Disable the supply voltage.
Disconnect the terminal blocks.
Disconnect the grounding.
Insert a screwdriver horizontally below the casing into the locking gate.
Pull the rail lock slide down using a screwdriver and fold the device up.
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7 Technical data
7.1 General data
Product name Weight
(Plastic casing)
Weight
(Metal casing)
Casing width
See “Dimension
drawings” on
page 74.
Degree of
protection
(Plastic casing)
Degree of
protection
(Metal casing)
Digital input
available
BRS20-0400... 380 g (12.22 oz) 30.69 oz (870 g) narrow IP30 IP40 Yes
BRS20-0500... 420 g (14.82 oz) 910 g (32.09 oz) narrow IP30 IP40 Yes
BRS20-0600... 420 g (14.82 oz) 910 g (32.09 oz) narrow IP30 IP40 Yes
BRS20-08009999-S;C... 420 g (14.82 oz) 1020 g (35.98 oz) medium IP30 IP40 Yes
BRS20-08009999-T;E;G... 500 g (17.64 oz) 1020 g (35.98 oz) medium IP30 IP40 Yes
BRS20-0900....S;C... 500 g (17.64 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS20-0900....T;E;G... 570 g (20.10 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS20-1000....S;C... 500 g (17.64 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS20-1000....T;E;G... 570 g (20.10 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS20-1100....S;C... 500 g (17.64 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS20-1100....T;E;G... 570 g (20.10 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS20-12009999-S;C... 600 g (21.16 oz) 1260 g (44.4 oz) medium IP30 IP40 Yes
BRS20-12009999-T;E;G... 700 g (24.69 oz) 1260 g (44.4 oz) medium IP30 IP40 Yes
BRS20-1200ZZZZ-S;C... 500 g (17.64 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS20-1200ZZZZ-T;E;G... 570 g (20.10 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS20-16009999-S;C... 880 g (31.04 oz) 1450 g (51.14 oz) wide IP30 IP40 Yes
BRS20-16009999-T;E;G... not available 1450 g (51.14 oz) wide not available IP30 Yes
BRS20-20009999-S;C... 1060 g (37.3 oz) 1700 g (60 oz) wide IP30 IP40 Yes
Table 12: General data
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BRS20-20009999-T;E;G... not available 1700 g (60 oz) wide not available IP30 Yes
BRS20-2000ZZZZ-S;C... 950 g (33.51 oz) 1520 g (53.61 oz) wide IP30 IP40 Yes
BRS20-2000ZZZZ-T;E;G... not available 1520 g (53.61 oz) wide not available IP30 Yes
BRS20-24009999-S;C... 1160 g (41 oz) 1800 g (63.4 oz) wide IP30 IP40 Yes
BRS20-24009999-T;E;G... not available 1800 g (63.4 oz) wide not available IP30 Yes
BRS20-2400ZZZZ-S;C... 1050 g (37 oz) 1620 g (57.14 oz) wide IP30 IP40 Yes
BRS20-2400ZZZZ-T;E;G... not available 1620 g (57.14 oz) wide not available IP30 Yes
BRS30-08042T2T... 700 g (24.69 oz) 1260 g (44.4 oz) medium IP30 IP40 Yes
BRS30-0804OOOO... 570 g (20.10 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS30-16042T2T-S;C... 1060 g (37.3 oz) 1700 g (60 oz) wide IP30 IP40 Yes
BRS30-16042T2T-T;E;G... not available 1700 g (60 oz) wide not available IP30 Yes
BRS30-1604OOOO-S;C... 950 g (33.51 oz) 1520 g (53.61 oz) wide IP30 IP40 Yes
BRS30-1604OOOO-T;E;G... not available 1520 g (53.61 oz) wide not available IP30 Yes
BRS30-20042T2T-S;C... 1060 g (37.3 oz) 1800 g (63.4 oz) wide IP30 IP40 Yes
BRS30-20042T2T-T;E;G... not available 1800 g (63.4 oz) wide not available IP30 Yes
BRS30-2004OOOO-S;C... 1050 g (37 oz) 1620 g (57.14 oz) wide IP30 IP40 Yes
BRS30-2004OOOO-T;E;G... not available 1620 g (57.14 oz) wide not available IP30 Yes
BRS40-00089999... 500 g (17.64 oz) 1020 g (35.98 oz) medium IP30 IP40 Yes
BRS40-00129999... 700 g (24.69 oz) 1260 g (44.4 oz) medium IP30 IP40 Yes
BRS40-0012OOOO... 570 g (20.10 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS40-00169999-S;C... 880 g (31.04 oz) 1450 g (51.14 oz) wide IP30 IP40 Yes
BRS40-00169999-T;E;G... not available 1450 g (51.14 oz) wide not available IP30 Yes
BRS40-00209999-S;C... 1060 g (37.3 oz) 1700 g (60 oz) wide IP30 IP40 Yes
BRS40-00209999-T;E;G... not available 1700 g (60 oz) wide not available IP30 Yes
BRS40-0020OOOO-S;C... 950 g (33.51 oz) 1520 g (53.61 oz) wide IP30 IP40 Yes
Product name Weight
(Plastic casing)
Weight
(Metal casing)
Casing width
See “Dimension
drawings” on
page 74.
Degree of
protection
(Plastic casing)
Degree of
protection
(Metal casing)
Digital input
available
Table 12: General data
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BRS40-0020OOOO-T;E;G... not available 1520 g (53.61 oz) wide not available IP30 Yes
BRS40-00249999-S;C... 1160 g (41 oz) 1800 g (63.4 oz) wide IP30 IP40 Yes
BRS40-00249999-T;E;G... not available 1800 g (63.4 oz) wide not available IP30 Yes
BRS40-0024OOOO-S;C... 1050 g (37 oz) 1620 g (57.14 oz) wide IP30 IP40 Yes
BRS40-0024OOOO-T;E;G... not available 1620 g (57.14 oz) wide not available IP30 Yes
BRS50-0012QTQT… not available not available medium IP30 IP40 Yes
BRS50-00122Q2Q… 570 g (20.10 oz) 1090 g (38.45 oz) medium IP30 IP40 Yes
BRS50-0020QTQT-S,C… not available not available wide IP30 IP40 Yes
BRS50-0020QTQT-T,E,G... not available not available wide not available IP30 Yes
BRS50-00202Q2Q-S,C... 950 g (33.51 oz) 1520 g (53.61 oz) wide IP30 IP40 Yes
BRS50-00202Q2Q-T;E;G… not available 1520 g (53.61 oz) wide not available IP30 Yes
BRS50-0024QTQT-S;C… not available not available wide IP30 IP40 Yes
BRS50-0024QTQT-T;E;G… not available not available wide not available IP30 Yes
BRS50-00242Q2Q-S;C… 1050 g (37 oz) 1620 g (57.14 oz) wide IP30 IP40 Yes
BRS50-00242Q2Q-T;E;G… not available 1620 g (57.14 oz) wide not available IP30 Yes
PoE device variants
Supply voltage with characteristic value U
BRS22-08009999-S;C... 750 g (24.46 oz) 1400 g (49.38 oz) wide IP30 IP40 Yes
BRS22-08009999-T;E;G... not available 1400 g (49.38 oz) wide not available IP30 Yes
BRS32-08042T2T-S;C.. 930 g (32.80 oz) 1620 g (57.14 oz) wide IP30 IP40 Yes
BRS32-08042T2T-T,E,G... not available 1620 g (57.14 oz) wide not available IP30 Yes
BRS32-0804OOOO-S;C... 800 g (28.21 oz) 1450 g (51.14 oz) wide IP30 IP40 Yes
BRS32-0804OOOO-T;E;G... not available 1450 g (51.14 oz) wide not available IP30 Yes
BRS42-00089999-S;C... 750 g (24.46 oz) 1400 g (49.38 oz) wide IP30 IP40 Yes
BRS42-0008....T;E;G... not available 1400 g (49.38 oz) wide not available IP30 Yes
BRS42-00129999-S;C... 930 g (32.80 oz) 1620 g (57.14 oz) wide IP30 IP40 Yes
Product name Weight
(Plastic casing)
Weight
(Metal casing)
Casing width
See “Dimension
drawings” on
page 74.
Degree of
protection
(Plastic casing)
Degree of
protection
(Metal casing)
Digital input
available
Table 12: General data
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BRS42-00129999-T;E;G... not available 1620 g (57.14 oz) wide not available IP30 Yes
BRS42-0012OOOO-S;C... 800 g (28.21 oz) 1450 g (51.14 oz) wide IP30 IP40 Yes
BRS42-0012OOOO-T;E;G... not available 1450 g (51.14 oz) wide not available IP30 Yes
BRS52-0012QTQT-S;C… not available not available wide IP30 IP40 Yes
BRS52-0012QTQT-T;E;G… not available not available wide not available IP30 Yes
BRS52-00122Q2Q-S;C… 800 g (28.21 oz) 1450 g (51.14 oz) wide IP30 IP40 Yes
BRS52-00122Q2Q-T;E;G… not available 1450 g (51.14 oz) wide not available IP30 Yes
PoE device variants
Supply voltage with characteristic value P
BRS22-08009999-S;C... 500 g (17.64 oz) 1100 g (38.80 oz) medium IP30 IP40 No
BRS22-08009999-T;E;G... not available 1250 g (44 oz) wide not available IP30 Yes
BRS32-08042T2T-S;C... 680 g (24 oz) 1320 g (46.56 oz) medium IP30 IP40 No
BRS32-08042T2T-T,E,G... not available 1470 g (52 oz) wide not available IP30 Yes
BRS32-0804OOOO-S,C... 550 g (19.4 oz) 1150 g (40.56 oz) medium IP30 IP40 No
BRS32-0804OOOO-T,E,G... not available 1300 g (45.85 oz) wide not available IP30 Yes
BRS42-00089999-S;C... 500 g (17.64 oz) 1100 g (38.80 oz) medium IP30 IP40 No
BRS42-00089999-T;E;G... not available 1250 g (44 oz) wide not available IP30 Yes
BRS42-00129999-S;C... 680 g (24 oz) 1320 g (46.56 oz) medium IP30 IP40 No
BRS42-00129999-T;E;G... not available 1470 g (52 oz) wide not available IP30 Yes
BRS42-0012OOOO-S;C... 550 g (19.4 oz) 1150 g (40.56 oz) medium IP30 IP40 No
BRS42-0012OOOO-T;E;G... not available 1300 g (45.85 oz) wide not available IP30 Yes
BRS52-0012QTQT-S;C… not available not available medium IP30 IP40 No
BRS52-0012QTQT-T;E;G… not available not available wide not available IP30 Yes
BRS52-00122Q2Q-S;C… 550 g (19.4 oz) 1150 g (40.56 oz) medium IP30 IP40 No
BRS52-00122Q2Q-T;E;G… not available 1300 g (45.85 oz) wide not available IP30 Yes
Product name Weight
(Plastic casing)
Weight
(Metal casing)
Casing width
See “Dimension
drawings” on
page 74.
Degree of
protection
(Plastic casing)
Degree of
protection
(Metal casing)
Digital input
available
Table 12: General data
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7.2 Supply voltage
General data
Dimensions
W × H × D
See “Dimension drawings” on page 74.
Mounting See “Installing the device onto the DIN rail” on page 45.
Pollution degree 2
Degree of
protection
IP30
See “General data” on page 63.
IP40
See “General data” on page 63.
Note: IP protection is not evaluated by UL.
Laser protection Class 1 in compliance with IEC 60825-1
Table 13: General data
Supply voltage with characteristic value T
Rated voltage range DC: 12 V DC ... 24 V DC
Voltage range DC incl. maximum
tolerances:
9.6 V DC ... 32 V DC
Connection type 6-pin terminal block with screw lock
Tightening torque 0.5 Nm (4.4 lb-in)
min. conductor
diameter
0.75 mm² (AWG18)
max. conductor
diameter
2.5 mm² (AWG12)
Power loss buffer >10 ms at 20.4 V DC
Overload current protection on the device Non-replaceable fuse
Back-up fuse for each voltage input Nominal rating: 2 A ... 10 A
Characteristic: slow blow
Current integral I²t <1 A²s
Connection for functional ground See “Grounding the device” on page 47.
Table 14: Supply voltage with characteristic value T
Supply voltage with characteristic value F
Rated voltage range DC:
Rated voltage AC:
24VDC... 48VDC
24 V AC
Voltage range DC incl. maximum
tolerances:
Voltage range AC incl. maximum
tolerances:
18VDC... 60VDC
18 V AC ... 30 V AC, 50 Hz ... 60 Hz
Connection type 6-pin terminal block with screw lock
Tightening torque 0.5 Nm (4.4 lb-in)
min. conductor diameter 0.75 mm² (AWG18)
max. conductor diameter 2.5 mm² (AWG12)
Table 15: Supply voltage with characteristic value F
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Power loss buffer >10 ms at 20.4 V DC ... 48 V DC and 24 V AC
Overload current protection on the
device
Non-replaceable fuse
Back-up fuse for each voltage input Nominal rating: 2 A ... 10 A
Characteristic: slow blow
Current integral I²t <1 A²s at 24 V DC
Connection for functional ground See “Grounding the device” on page 47.
Supply voltage with characteristic value U
Rated voltage DC: 24 V DC
Voltage range DC incl. maximum
tolerances:
18 V DC ... 30 V DC
Max. PoE power 90 W < +60 °C (+140 °F) ambient
air temperature
60 W +60 °C ... +70 °C
(+140 °F ... +158 °F)
ambient temperature
Connection type 6-pin terminal block with screw lock
Tightening torque 0.5 Nm (4.4 lb-in)
min. conductor
diameter
1 mm² (AWG16)
max. conductor
diameter
2.5 mm² (AWG12)
Power loss buffer >10 ms at 20.4 V DC
Overload current protection on the device Non-replaceable fuse
Back-up fuse for each voltage input Nominal rating: 10 A
Characteristic: slow blow
Current integral I²t <36 A
2
s
Connection for functional ground See “Grounding the device” on page 47.
Table 16: Supply voltage with characteristic value U
Supply voltage with characteristic value P
Rated voltage DC: When using PoE: 48 V DC
When using PoE+: 54 V DC
Without using PoE or
PoE+:
24 V DC ... 48 V DC
Max. PoE power 240 W 0 ° ... +50 °C (+32 °F ...
+122 °F) ambient air
temperature
a
180 W > +50 °C ... +55 °C
(+122 °F ... +131 °F)
a
ambient air temperature
120 W > +55 °C ... +60 °C
(+131 °F ... +140 °F)
a
ambient air temperature
Table 17: Supply voltage with characteristic value P
Supply voltage with characteristic value F
Table 15: Supply voltage with characteristic value F
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7.3 Power consumption/power output
Voltage range DC incl. maximum
tolerances:
When using PoE: 46 V DC ... 57 V DC
When using PoE+: 52 V DC ... 57 V DC
Without using PoE or
PoE+:
19 V DC ... 60 V DC
Connection type 6-pin terminal block with screw lock
Tightening torque 0.5 Nm (4.4 lb-in)
min. conductor
diameter
0.75 mm² (AWG18)
max. conductor
diameter
2.5 mm² (AWG12)
Power loss buffer >10 ms at 20.4 V DC
Overload current protection on the device Non-replaceable fuse
Back-up fuse for each voltage input Nominal rating: 10 A
Characteristic: slow blow
Current integral I²t <25 A
2
s
Insulation requirement 2250 V DC to casing ground/functional ground for
at least 60 seconds
Connection for functional ground See “Grounding the device” on page 47.
a. The de-ratings apply to all PoE device variants in medium plastic casings and with standard
temperature range.
Device name Total power
consumption
Thermal power
output
PoE power output
BRS20-0400... 5 W 17 Btu (IT)/h 0 W
BRS20-0500... 6 W 20 Btu (IT)/h 0 W
BRS20-0600... 7 W 24 Btu (IT)/h 0 W
BRS20-0800... 6 W 20 Btu (IT)/h 0 W
BRS20-0900... 7 W 24 Btu (IT)/h 0 W
BRS20-1000... 8 W 27 Btu (IT)/h 0 W
BRS20-1100... 9 W 31 Btu (IT)/h 0 W
BRS20-1200... 9 W 31 Btu (IT)/h 0 W
BRS20-1600... 10 W 34 Btu (IT)/h 0 W
BRS20-2000... 15 W 51 Btu (IT)/h 0 W
BRS20-2400... 16 W 55 Btu (IT)/h 0 W
BRS30-0804... 9 W 31 Btu (IT)/h 0 W
BRS30-1604... 15 W 51 Btu (IT)/h 0 W
BRS30-2004... 16 W 55 Btu (IT)/h 0 W
BRS40-0008... 8 W 27 Btu (IT)/h 0 W
BRS40-0012... 11 W 38 Btu (IT/h) 0 W
Table 18: Power consumption/power output
Supply voltage with characteristic value P
Table 17: Supply voltage with characteristic value P
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7.4 Signal contact
BRS40-0016... 14 W 48 Btu (IT/h) 0 W
BRS40-0020... 17 W 58 Btu (IT)/h 0 W
BRS40-0024... 19 W 65 Btu (IT)/h 0 W
BRS50-0012... 12 W 41 Btu (IT)/h 0 W
BRS50-0020... 17 W 58 Btu (IT)/h 0 W
BRS50-0024... 20 W 68 Btu (IT)/h 0 W
BRS22-08009999U... 104 W 48 Btu (IT/h) 90 W
BRS22-08009999P... 247 W 24 Btu (IT)/h 240 W
BRS32-0804OOOOU... 107 W 58 Btu (IT)/h 90 W
BRS32-0804OOOOP... 250 W 34 Btu (IT)/h 240 W
BRS42-00089999U... 106 W 55 Btu (IT)/h 90 W
BRS42-00089999P... 249 W 31 Btu (IT)/h 240 W
BRS42-0012OOOOU... 109 W 65 Btu (IT)/h 90 W
BRS42-0012OOOOP... 252 W 41 Btu (IT)/h 240 W
BRS52-00122Q2QU... 110 W 68 Btu (IT)/h 90 W
BRS52-00122Q2QP... 253 W 44 Btu (IT)/h 240 W
Signal contact
Device variants featuring supply voltage with characteristic value F, P and T
Connection type 6-pin terminal block with screw lock
Tightening torque 0.5 Nm (4.4 lb-in)
min. conductor diameter 0.08 mm
2
(AWG 28)
max. conductor diameter 2.5 mm² (AWG12)
Nominal value I
max
=1A at U
max
= 30 V AC (resistive load)
I
max
=1A at U
max
= 60 V DC (resistive load)
according to the UL Standards:
I
max
=0.5A at U
max
= 30 V AC (resistive load)
I
max
=1A at U
max
= 30 V DC (resistive load)
as per ANSI/UL 121201:
See control drawing in chapter “Relevant for use in explosion
hazard areas (Hazardous Locations, Class I, Division 2)” on
page 12
Table 19: Signal contact: device variants featuring supply voltage with characteristic
value F, P and T
Device name Total power
consumption
Thermal power
output
PoE power output
Table 18: Power consumption/power output
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7.5 Digital input
Signal contact
Device variants featuring supply voltage with characteristic value U
Connection type 6-pin terminal block with screw lock
Tightening torque 0.5 Nm (4.4 lb-in)
min. conductor diameter 0.08 mm
2
(AWG 28)
max. conductor diameter 2.5 mm² (AWG12)
I
max
=1A at U
max
= 30 V AC (resistive load)
I
max
= 0.5 A at U
max
= 60 V DC (resistive load)
I
max
=1A at U
max
= 30 V DC (resistive load)
according to the UL Standards:
I
max
= 0.5 A at U
max
= 30 V AC (resistive load)
I
max
=1A at U
max
= 30 V DC (resistive load)
as per ANSI/UL 121201:
See control drawing in chapter “Relevant for use in explosion
hazard areas (Hazardous Locations, Class I, Division 2)” on
page 12
Table 20: Signal contact: device variants featuring supply voltage with characteristic
value U
Digital input
Connection type 2-pin terminal block with screw lock
Tightening torque 0.5 Nm (4.4 lb-in)
min. conductor
diameter
0.08 mm
2
(AWG 28)
max. conductor
diameter
2.5 mm² (AWG12)
Maximum permitted input voltage range between -32 V DC and +32 V DC
Nominal input voltage +24 V DC
Input voltage, low level, status “0” -0.3 V DC … +5 V DC
Input voltage, high level, status “1” +11 V DC … +30 V DC
Maximum input current at nominal input
voltage
15 mA
Permitted closed-circuit current for 2-wire
sensors
1.5 mA
Input characteristic according to IEC 61131-2
(current-consuming)
Typ 3
Table 21: Digital input
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7.6 Climatic conditions during operation
Climatic conditions during operation
Minimum clearance at the
ventilation slots
See “Installing the device onto the DIN rail” on page 45.
Ambient air temperature
a
Standard
up to 2000 m ASL
(6562 ft ASL)
0 °C ... +60 °C (+32 °F ... +140 °F)
2000 m ASL ...
3000 m ASL
(6560 ft ASL ...
9842 ft ASL)
0 °C ... +50 °C (+32 °F ... +122 °F)
3000 m ASL ...
4000 m ASL
(9842 ft ASL ...
13123 ft ASL)
0 °C ... +45 °C (+32 °F ... +113 °F)
4000 m ASL ...
4500 m ASL
(13123 ft ASL ...
14763 ft ASL)
0 °C ... +40 °C (+32 °F ... +104 °F)
4500 m ASL ...
5000 m ASL
(14763 ft ASL ...
16404 ft ASL)
0 °C ... +35 °C (+32 °F ... +95 °F)
Extended
up to 2000 m ASL
(6562 ft ASL)
-40 °C ... +70 °C (-40 °F ... +158 °F)
2000 m ASL ...
3000 m ASL
(6560 ft ASL ...
9842 ft ASL)
-40 °C ... +60 °C (-40 °F ... +140 °F)
3000 m ASL ...
4000 m ASL
(9842 ft ASL ...
13123 ft ASL)
-40 °C ... +55 °C (-40 °F ... +131 °F)
4000 m ASL ...
4500 m ASL
(13123 ft ASL ...
14763 ft ASL)
-40 °C ... +50 °C (-40 °F ... +122 °F)
4500 m ASL ...
5000 m ASL
(14763 ft ASL ...
16404 ft ASL)
0 °C ... +45 °C (+32 °F ... +113 °F)
Note: Note the following de-ratings due to:
Mounting:
See table 6 on page 46.
PoE power output:
See table 16 on page 68.
See table 17 on page 68.
SFP transceiver
See “Derating due to SFP transceiver” on page 87.
Table 22: Climatic conditions during operation
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7.7 Climatic conditions during storage
Maximum inner temperature of device (guideline)
Device variants in plastic casing with
extended temperature range: BRSXX-
XXXXXXXX-T/E/GxC ...
See “Device name and product code” on page 24.
Device variants in metal casing with
standard temperature range: BRSXX-
XXXXXXXX-S/CxD...
See “Device name and product code” on page 24.
Device variants in metal casing with
extended temperature range: BRSXX-
XXXXXXXX-T/E/GxD/E ...
See “Device name and product code” on page 24.
85 °C (185 °F)
80 °C (176 °F)
85 °C (185 °F)
Humidity 1 % ... 95 % (non-condensing)
Air pressure Without derating
min. 795 hPa (+2000 m ASL; +6562 ft ASL)
max. 1060 hPa (-400 m ASL; -1312 ft ASL)
With derating
min. 540 hPa (+4000 m ASL; +13123 ft ASL)
max. 1060 hPa (-400 m ASL; -1312 ft ASL)
a. Temperature of the ambient air at a distance of 5 cm (2 in) from the device
Climatic conditions during storage
Ambient
temperature
-40 °C ... +85 °C (-40 °F ... +185 °F) up to 3 months
-40 °C ... +70 °C (-40 °F ... +158 °F) up to 1 year
-40 °C ... +50 °C (-40 °F ... +122 °F) up to 2 years
0 °C ... +30 °C (+32 °F ... +86 °F) up to 10 years
Humidity 1 % ... 95 % (non-
condensing)
Air pressure
min. 540 hPa (+4000 m
ASL; +13123 ft ASL)
max. 1060 hPa (-400 m
ASL; -1312 ft ASL)
Table 23: Climatic conditions during storage
Climatic conditions during operation
Table 22: Climatic conditions during operation
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7.8 Dimension drawings
7.8.1 Device variants with casing with characteristic
value C (plastic casing)
Figure 22: Device variants in narrow plastic casing
57
2.24
137,5
5,3
50,4
35,6
103,5
12,3
14,9
0.59
5.410.21
4.07
5
0.2
0.48
1.4
1.97
mm
inch
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Figure 23: Device variants in medium plastic casing
73
137,5
5,3
103,5
5
50,4 35,6
14,9
2.87
0.59
0.21 5.41
0.2 4.07
1.41.97
11,8
0.46
mm
inch
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Figure 24: Device variants in wide plastic casing
108,8
4.28
137,5
5.41
5,3
0.21
14,9
0.59
103,5
4.07
5
0.2
11,8
0.46
50,4
1.97
35,6
1.4
mm
inch
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7.8.2 Device variants with casing with characteristic
value E/D (metal casing)
Figure 25: Device variants in narrow metal casing
70,7
2.78
15
0.59
140
5.51
4,2
0.17
52,2
35,6
1.4
2.06
105,5
10,3
4.15
4,55
0.18
0.41
mm
inch
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Figure 26: Device variants in medium metal casing
3.41
86,6
15
0.59
140
5.51
4,2
0.17
4.15
0.18
4,55
105,5
9,8
0.39
35,6
1.42.06
52,5
mm
inch
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Figure 27: Device variants in wide metal casing
122,4
4.82
140
5.51
52,2
2.06
35,6
1.4
105,5
4.15
9,8
0.39
15
0.59
4,55
0.18
4,2
0.17
mm
inch
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7.9 Immunity
7.10 Electromagnetic compatibility (EMC)
Note: Use shielded data cables for gigabit transmission via copper cables. Use shielded data cables for all transmission
rates to meet the requirements according to EN 50121-4 and marine applications.
Immunity Standard applications
a
a. EN 61131-2, CE, FCC – applies to all devices
Navy applications Railway applications
(trackside) as per EN 50121-4
IEC 60068-2-6, test Fc Vibration 5 Hz ... 8.4 Hz with 3.5 mm
(0.14 in) amplitude
2 Hz ... 13.2 Hz with 1 mm
(0.04 in) amplitude
—
8.4 Hz ... 200 Hz with 1 g 13.2 Hz ... 100 Hz
with 0.7 g
—
IEC 60068-2-27, test Ea Shock 15 g at 11 ms — —
Table 24: Immunity
EMC interference emission Standard applications
a
a. EN 61131-2, CE, FCC – applies to all devices
Navy applications Railway applications
(trackside) as per EN 50121-4
EN 55032 Class A — —
DNV Guidelines — EMC B —
FCC 47 CFR Part 15 Class A — —
EN 61000-6-4 Fulfilled — Fulfilled
Table 25: EMC interference emission
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EMC interference immunity Standard
applications
a
a. EN 61131-2, CE, FCC – applies to all devices
Navy
applications
Railway
applications
(trackside) as per
EN 50121-4
Electrostatic discharge
EN 61000-4-2 Contact discharge ±4 kV ±6 kV ±6 kV
EN 61000-4-2 Air discharge ±8 kV ±8 kV ±8 kV
Electromagnetic field
EN 61000-4-3 80 MHz ... 800 MHz — — max. 10 V/m
80 MHz ... 1000 MHz max. 10 V/m — —
800 MHz ... 1000 MHz — — 20 V/m
80 MHz ... 2000 MHz — max. 10 V/m —
1.4 GHz ... 2.0 GHz 3 V/m — max. 10 V/m
2.0 GHz ... 2.7 GHz 1 V/m — 5 V/m
5.1 GHz ... 6.0 GHz — — 3 V/m
Fast transients (burst) – power supply connection
EN 61000-4-4 ±2 kV ±2 kV ±2 kV
Fast transients (burst) – data line
EN 61000-4-4 ±1 kV ±1 kV ±2 kV
Voltage surges – power supply connection
EN 61000-4-5 line/ground ±2 kV ±1 kV ±2 kV
EN 61000-4-5 line/line ±1 kV ±0.5 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 10 V
Table 26: EMC interference immunity
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7.11 Network range
Note: The line lengths specified for the transceivers apply for the respective fiber data (fiber attenuation and Bandwidth
Length Product (BLP)/ Dispersion).
7.11.1 10/100/1000 Mbit/s twisted pair port
7.11.2 Fast Ethernet SFP transceiver
10/100/1000 Mbit/s twisted pair port
Length of a twisted pair segment max. 100 m (328 ft) (for Cat5e cable)
Table 27: Network range: 10/100/1000 Mbit/s twisted pair port
Product code Mode
a
a. MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul
Wave
length
Fiber System
attenuation
Example for F/O cable length
b
b. Including 3 dB system reserve when compliance with the fiber data is observed.
Fiber
attenuation
BLP/Dispersion
M-FAST-SFP-MM/LC... MM 1310 nm 50/125 µm 0 dB ... 8 dB 0 km ... 5 km (0 mi ... 3.11 mi) 1.0 dB/km 800 MHz×km
M-FAST-SFP-MM/LC... MM 1310 nm 62.5/125 µm 0 dB ... 11 dB 0 km ... 4 km (0 mi ... 2.49 mi) 1.0 dB/km 500 MHz×km
M-FAST-SFP-SM/LC... SM 1310 nm 9/125 µm 0 dB ... 13 dB 0 km ... 25 km (0 mi ... 15.53 mi) 0.4 dB/km 3.5 ps/(nm×km)
M-FAST-SFP-SM+/LC... SM 1310 nm 9/125 µm 10 dB ... 29 dB 25 km ... 65 km (15.53 mi ... 40.39 mi) 0.4 dB/km 3.5 ps/(nm×km)
M-FAST-SFP-LH/LC... SM 1550 nm 9/125 µm 10 dB ... 29 dB 47 km ... 104 km (29.20 mi ... 64.62 mi) 0.25 dB/km 19 ps/(nm×km)
M-FAST-SFP-LH/LC... SM 1550 nm 9/125 µm 10 dB ... 29 dB 55 km ... 140 km (14.29 mi ... 86.99 mi) 0.18 dB/km
c
c. With ultra-low-loss optical fiber.
18 ps/(nm×km)
SFP-FAST-MM/LC MM 1310 nm 50/125 µm 0 dB ... 8 dB 0 km ... 5 km (0 mi ... 3.11 mi) 1.0 dB/km 800 MHz×km
SFP-FAST-MM/LC EEC MM 1310 nm 62.5/125 µm 0 dB ... 11 dB 0 km ... 4 km (0 mi ... 2.49 mi) 1.0 dB/km 500 MHz×km
SFP-FAST-SM/LC SM 1310 nm 9/125 µm 0 dB ... 13 dB 0 km ... 25 km (0 mi ... 15.53 mi) 0.4 dB/km 3.5 ps/(nm×km)
SFP-FAST-SM/LC EEC SM 1310 nm 9/125 µm 0 dB ... 13 dB 0 km ... 25 km (0 mi ... 15.53 mi) 0.4 dB/km 3.5 ps/(nm×km)
Table 28: F/O port 100BASE-FX (SFP Fiber Optic Fast Ethernet Transceiver)
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7.11.3 Gigabit Ethernet SFP transceiver
Product
code
Mode
a
a. MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul
Wave
length
Fiber System
attenuation
Example for F/O cable length
b
b. Including 3 dB system reserve when compliance with the fiber data is observed.
Fiber
attenuation
BLP/Dispersion
-M2, -MM MM 1300 nm 50/125 µm 0 dB ... 8 dB 0 km ... 5 km (0 mi ... 3.11 mi) 1.0 dB/km 800 MHz×km
-M2, -MM MM 1300 nm 62.5/125 µm 0 dB ... 11 dB 0 km ... 4 km (0 mi ... 2.49 mi) 1.0 dB/km 500 MHz×km
-M4, -NN SM 1300 nm 62.5/125 µm 0 dB ... 11 dB 0 km ... 4 km (0 mi ... 2.49 mi) 1.0 dB/km 500 MHz×km
-S2, -VV SM 1300 nm 9/125 µm 0 dB ... 16 dB 0 km ... 30 km (0 mi ... 18.64 mi) 0.4 dB/km 3.5 ps/(nm×km)
-S4, -UU SM 1300 nm 9/125 µm 0 dB ... 16 dB 0 km ... 30 km (0 mi ... 18.64 mi) 0.4 dB/km 3.5 ps/(nm×km)
-E2, EE SM+ 1300 nm 9/125 µm 7 dB ... 29 dB 25 km ... 65 km (12.43 mi ... 40.39 mi) 0.4 dB/km 3.5 ps/(nm×km)
-L2, -LL LH 1550 nm 9/125 µm 3 dB ... 29 dB 14 km ... 104 km (8.70 mi ... 64.62 mi) 0.25 dB/km 19 ps/(nm×km)
-G2, -GG LH+ 1550 nm 9/125 µm 14 dB ... 47 dB 67 km ... 176 km (41.63 mi ... 109.36 mi) 0.25 dB/km 19 ps/(nm×km)
Table 29: F/O port 100BASE-FX (DSC/DST fiber optic Fast Ethernet Transceiver)
Product
code
M-SFP-...
Mode
a
Wave length Fiber System
attenuation
Example for F/O cable length
b
Fiber
attenuation
BLP
c
/
Dispersion
-SX/LC... MM 850 nm 50/125 µm 0 dB ... 7.5 dB 0 km ... 0.55 km (0 mi ... 0.34 mi) 3.0 dB/km 400 MHz×km
-SX/LC... MM 850 nm 62.5/125 µm 0 dB ... 7.5 dB 0 km ... 0.275 km (0 mi ... 0.17 mi) 3.2 dB/km 200 MHz×km
-MX/LC... MM 1310 nm 50/125 µm 0 dB ... 12 dB 0 km ... 1.5 km (0 mi ... 0.93 mi) 1.0 dB/km 800 MHz×km
-MX/LC... MM 1310 nm 62,5/125 µm 0 dB ... 12 dB 0 km ... 0.50 km (0 km ... 0.31 mi) 1,0 dB/km 500 MHz×km
-LX/LC... MM 1310 nm
d
50/125 µm 0 dB ... 10.5 dB 0 km ... 0.55 km (0 mi ... 0.34 mi) 1.0 dB/km 800 MHz×km
-LX/LC... MM 1310 nm
e
62.5/125 µm 0 dB ... 10.5 dB 0 km ... 0.55 km (0 mi ... 0.34 mi) 1.0 dB/km 500 MHz×km
-LX/LC... SM 1310 nm 9/125 µm 0 dB ... 10.5 dB 0 km ... 20 km (0 mi ... 12.43 mi)
f
0.4 dB/km 3.5 ps/(nm×km)
-LX+/LC... SM 1310 nm 9/125 µm 5 dB ... 20 dB 14 km ... 42 km (8.70 mi ... 26.10 mi) 0.4 dB/km 3.5 ps/(nm×km)
-LH/LC... LH 1550 nm 9/125 µm 5 dB ... 22 dB 23 km ... 80 km (14.29 mi ... 49.71 mi) 0.25 dB/km 19 ps/(nm×km)
Table 30: F/O port 1000BASE-FX (SFP fiber optic Gigabit Ethernet Transceiver)
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-LH+/LC LH 1550 nm 9/125 µm 15 dB ... 30 dB 71 km ... 108 km (44.12 mi ... 67.11 mi) 0.25 dB/km 19 ps/(nm×km)
-LH+/LC LH 1550 nm 9/125 µm 15 dB ... 30 dB 71 km ... 128 km (44.12 mi ... 79.54 mi) 0.21 dB/
km (typically)
19 ps/(nm×km)
-LH+/LC... LH 1550 nm 9/125 µm 13 dB ... 32 dB 62 km ... 116 km (38.52 mi ... 72.07 mi) 0.25 dB/km 19 ps/(nm×km)
-LH+/LC... LH 1550 nm 9/125 µm 13 dB ... 32 dB 62 km ... 138 km (38.52 mi ... 85.75 mi) 0.21 dB/
km (typically)
19 ps/(nm×km)
SFP-GIG-
LX/LC...
MM 1310 nm
g
50/125 µm 0 dB ... 10,5 dB 0 km ... 0.55 km (0 mi ... 0.34 mi) 1.0 dB/km 800 MHz×km
SFP-GIG-
LX/LC...
MM 1310 nm
h
62.5/125 µm 0 dB ... 10.5 dB 0 km ... 0.55 km (0 mi ... 0.34 mi) 1.0 dB/km 500 MHz×km
SFP-GIG-
LX/LC...
SM 1310 nm 9/125 µm 0 dB ... 10,5 dB 0 km ... 20 km
i
(0 mi ... 12.43 mi) 0,4 dB/km 3,5 ps/(nm×km)
a. MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul
b. Including 3 dB system reserve when compliance with the fiber data is observed.
c. Using the bandwidth-length product is inappropriate for expansion calculations.
d. With F/O adapter compliant with IEEE 802.3-2002 Clause 38 (single-mode fiber offset-launch mode conditioning patch cord).
e. With F/O adapter compliant with IEEE 802.3-2002 Clause 38 (single-mode fiber offset-launch mode conditioning patch cord).
f. Including 2.5 dB system reserve when compliance with the fiber data is observed.
g. With F/O adapter compliant with IEEE 802.3-2002 Clause 38 (single-mode fiber offset-launch mode conditioning patch cord).
h. With F/O adapter compliant with IEEE 802.3-2002 Clause 38 (single-mode fiber offset-launch mode conditioning patch cord).
i. Including 2,5 dB system reserve when compliance with the fiber data is observed.
Product
code
M-SFP-...
Mode
a
Wave length Fiber System
attenuation
Example for F/O cable length
b
Fiber
attenuation
BLP
c
/
Dispersion
Table 30: F/O port 1000BASE-FX (SFP fiber optic Gigabit Ethernet Transceiver)
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7.11.4 2.5 Gigabit Ethernet SFP transceiver
7.11.5 Bidirectional Fast Ethernet SFP transceiver
Product code
M-SFP-2.5-...
Mode
a
a. MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul
Wave length Fiber System
attenuation
Example for F/O
cable length
Fiber
attenuation
BLP/dispersion
MM/LC EEC MM 850 nm 50/125 µm 0 dB ... 4 dB 0.55 km (0.34 mi) 3.5 dB/km 2000 MHz×km
(OM3)
MM/LC EEC MM 850 nm 50/125 µm 0 dB ... 4 dB 0.4 km (0.25 mi) 3.5 dB/km 500 MHz×km
(OM2)
MM/LC EEC MM 850 nm 62.5/125 µm 0 dB ... 4 dB 0.17 km (0.11 mi) 3.5 dB/km 200 MHz×km
(OM1)
SM-/LC EEC SM 1310 nm 9/125 µm 0 dB ... 8.5 dB 5 km (3.11 mi) 0.4 dB/km 3.5 ps/(nm×km)
SM/LC EEC SM 1310 nm 9/125 µm 0 dB ... 13 dB 20 km (12.43 mi) 0.4 dB/km 3.5 ps/(nm×km)
SM+/LC EEC SM 1310 nm 9/125 µm 12 dB ... 25 dB 45 km (27.96 mi) 0.4 dB/km 3.5 ps/(nm×km)
LH/LC SM 1551 nm 9/125 µm 14 dB ... 28 dB 80 km
b
(49.70 mi)
b. Typically the DWDM (Dense Wave Division Multiplexing) links have filters because the remaining attenuation budget is consumed by the filters.For
point-to-point connections without filters and with max. 1.5 dB of connector losses you can cover up to 95 km (59 mi).
0.25 dB/km 19 ps/(nm×km)
Table 31: F/O port 2.5 Gbit/s (SFP fiber optic Gigabit Ethernet transceiver)
Product code
SFP-FAST-B...
Mode
a
Wave length
TX
Wave length
RX
Fiber System
attenuation
Example for F/O
cable length
b
Fiber
attenuation
Dispersion
SFP-FAST-BA
MM/LC EEC
MM 1310 nm 1550 nm 50/125 µm
62.5/125 µm
0 dB ... 16 dB 0 km ... 2 km
(0 mi ... 1.24 mi)
1.0 dB/km 800 MHz×km
500 MHz×km
SFP-FAST-BB
MM/LC EEC
MM 1550 nm 1310 nm 50/125 µm
62.5/125 µm
0 dB ... 16 dB 0 km ... 2 km
(0 mi ... 1.24 mi)
1.0 dB/km 800 MHz×km
500 MHz×km
SFP-FAST-BA
SM/LC EEC
SM 1310 nm 1550 nm 9/125 µm 0 dB ... 18 dB 0 km ... 20 km
(0 km ... 12.43 mi)
0.4 dB/km 3.5 ps/(nm×km)
Table 32: F/O port (bidirectional Fast Ethernet SFP transceiver)
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7.11.6 Bidirectional Gigabit Ethernet SFP transceiver
SFP-FAST-BB
SM/LC EEC
SM 1550 nm 1310 nm 9/125 µm 0 dB ... 18 dB 0 km ... 20 km
(0 km ... 12.43 mi)
0.25 dB/km 19 ps/(nm×km)
SFP-FAST-BA
SM+/LC EEC
SM 1310 nm 1550 nm 9/125 µm 0 dB ... 29 dB 0 km ... 60 km
(0 mi ... 37.29 mi)
0.4 dB/km 3.5 ps/(nm×km)
SFP-FAST-BB
SM+/LC EEC
SM 1550 nm 1310 nm 9/125 µm 0 dB ... 29 dB 0 km ... 60 km
(0 mi ... 37.29 mi)
0.25 dB/km 19 ps/(nm×km)
a. MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul
b. Including 3 dB system reserve when compliance with the fiber data is observed.
Product code
SFP-GIG-B...
Mode
a
a. MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul
Wave length
TX
Wave length
RX
Fiber System
attenuation
Example for F/O cable length
b
b. Including 3 dB system reserve when compliance with the fiber data is observed.
Fiber
attenuation
Dispersion
SFP-GIG-BA LX/
LC EEC
SM 1310 nm 1550 nm 9/125 µm 0 dB ... 15 dB 0 km ... 20 km (0 mi ... 12.43 mi) 0.4 dB/km 3.5 ps/(nm×km)
SFP-GIG-BB LX/
LC EEC
SM 1550 nm 1310 nm 9/125 µm 0 dB ... 15 dB 0 km ... 20 km (0 mi ... 12.43 mi) 0.25 dB/km 19 ps/(nm×km)
SFP-GIG-BA LX+/
LC EEC
SM 1310 nm 1550 nm 9/125 µm 3 dB ... 20 dB 12 km ... 40 km (7.45 mi ...
24.86 mi)
0.4 dB/km 3.5 ps/(nm×km)
SFP-GIG-BB LX+/
LC EEC
SM 1550 nm 1310 nm 9/125 µm 3 dB ... 20 dB 12 km ... 40 km (7.45 mi ...
24.86 mi)
0.25 dB/km 19 ps/(nm×km)
SFP-GIG-BA LH/
LC EEC
SM 1490 nm 1550 nm 9/125 µm 4 dB ... 24 dB 19 km ... 80 km (11.80 mi ...
49.71 mi)
0.25 dB/km 19 ps/(nm×km)
SFP-GIG-BB LH/
LC EEC
SM 1550 nm 1490 nm 9/125 µm 4 dB ... 24 dB 19 km ... 80 km (11.80 mi ...
49.71 mi)
0.25 dB/km 19 ps/(nm×km)
Table 33: F/O port (bidirectional Gigabit Ethernet SFP transceiver)
Product code
SFP-FAST-B...
Mode
a
Wave length
TX
Wave length
RX
Fiber System
attenuation
Example for F/O
cable length
b
Fiber
attenuation
Dispersion
Table 32: F/O port (bidirectional Fast Ethernet SFP transceiver)
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7.12 Derating due to SFP transceiver
7.12.1 Fast Ethernet SFP transceiver
a - By using a SFP transceiver without EEC extension, the temperature of the device is reduced by 15°C (27 °F).
Product code Derating for a device with operating
temperature +60 °C (+140 °F) per SFP
transceiver used
Derating for a device with operating
temperature +70 °C (+158 °F) per SFP
transceiver used
Order number
M-FAST SFP-MM/LC 0 K a 943 865-001
M-FAST SFP-MM/LC EEC 0 K 0 K 943 945-001
M-FAST SFP-SM/LC 0 K a 943 866-001
M-FAST SFP-SM/LC EEC 0 K 0 K 943 946-001
M-FAST SFP-SM+/LC 0 K a 943 867-001
M-FAST SFP-SM+/LC EEC 0 K 0 K 943 947-001
M-FAST SFP-LH/LC 0 K a 943 868-001
M-FAST SFP-LH/LC EEC 0 K 0 K 943 948-001
M-FAST SFP-TX/RJ45 0 K a 942 098-001
M-FAST SFP-TX/RJ45 EEC 0 K 0 K 942 098-002
SFP-FAST-MM/LC 0 K a 942 194-001
SFP-FAST-MM/LC EEC 0 K 0 K 942 194-002
SFP-FAST-SM/LC 0 K a 942 195-001
SFP-FAST-SM/LC EEC 0 K 0 K 942 195-002
Table 34: Derating due to Fast Ethernet SFP transceiver
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7.12.2 Gigabit Ethernet SFP transceiver
a - By using a SFP transceiver without EEC extension, the temperature of the device is reduced by 15°C (27 °F).
Product code De-rating for a device with
operating temperature +60 °C
(+140 °F) per SFP transceiver
used
De-rating for a device with
operating temperature +70 °C
(+158 °F) per SFP transceiver
used
Order number
M-SFP-SX/LC 0 K a 943 014-001
M-SFP-SX/LC EEC 0 K 0 K 943 896-001
M-SFP-LX/LC 0 K a 943 015-001
M-SFP-LX/LC EEC 0 K 0 K 943 897-001
M-SFP-LH/LC 2 K a 943 042-001
M-SFP-LH/LC EEC 0 K 2 K 943 898-001
M-SFP-LH+/LC 2 K a 943 049-001
M-SFP-TX/RJ45 3 K a 943 977-001
M-SFP-TX/RJ45 EEC 0 K 3 K 942 161-001
SFP-GIG-LX/LC 0 K a 942 196-001
SFP-GIG-LX/LC EEC 0 K 0 K 942 196-002
M-SFP-LX+/LC 0 K a 942 023-001
M-SFP-LX+/LC EEC 0 K 0 K 942 024-001
M-SFP-LH+/LC EEC 0 K 2 K 942 119-001
M-SFP-MX/LC EEC 0 K 2 K 942 108-001
Table 35: De-rating due to Gigabit Ethernet SFP transceivers
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7.12.3 2.5 Gigabit Ethernet SFP transceiver
a - By using a SFP transceiver without EEC extension, the temperature of the device is reduced by 15°C (27 °F).
7.12.4 Bidirectional Fast Ethernet SFP transceiver
Product code Derating for a device with operating
temperature +60 °C (+140 °F) per SFP
transceiver used
Derating for a device with operating
temperature +70 °C (+158 °F) per SFP
transceiver used
Order number
M-SFP-2.5-MM/LC EEC 0 K 0 K 942 162-001
M-SFP-2.5-SM-/LC EEC 0 K 0 K 942 163-001
M-SFP-2.5-SM/LC EEC 0 K 2 K 942 164-001
M-SFP-2.5-SM+/LC EEC 0 K 0 K 942 165-001
M-SFP-2.5-LH/LC 2 K a 942 220-001
Table 36: Derating due to 2.5 Gigabit Ethernet SFP transceiver
Product code De-rating for a device with operating
temperature +60 °C (+140 °F) per SFP
transceiver used
De-rating for a device with operating
temperature +70 °C (+158 °F) per SFP
transceiver used
Order number
SFP-FAST-BA MM/LC EEC 0 K 0 K 942 204-001
SFP-FAST-BB MM/LC EEC 0 K 0 K 942 204-002
SFP-FAST-BA SM/LC EEC 0 K 0 K 942 205-001
SFP-FAST-BB SM/LC EEC 0 K 0 K 942 205-002
SFP-FAST-BA SM+/LC EEC 0 K 0 K 942 206-001
SFP-FAST-BB SM+/LC EEC 0 K 0 K 942 206-002
Table 37: De-rating due to bidirectional Fast Ethernet SFP transceivers
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7.12.5 Bidirectional Gigabit Ethernet SFP transceiver
Product code De-rating for a device with operating
temperature +60 °C (+140 °F) per SFP
transceiver used
De-rating for a device with operating
temperature +70 °C (+158 °F) per SFP
transceiver used
Order number
SFP-GIG-BA LX/LC EEC 0 K 0 K 942 207-001
SFP-GIG-BB LX/LC EEC 0 K 0 K 942 207-002
SFP-GIG-BA LX+/LC EEC 0 K 0 K 942 208-001
SFP-GIG-BB LX+/LC EEC 0 K 0 K 942 208-002
SFP-GIG-BA LH/LC EEC 0 K 0 K 942 209-001
SFP-GIG-BB LH/LC EEC 0 K 0 K 942 209-002
Table 38: De-rating due to bidirectional Gigabit Ethernet SFP transceivers
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8 Scope of delivery
Scope of delivery
1× Device
1 × Safety and general information sheet
1 × Terminal block for supply voltage and signal contact
1 × Terminal block for the digital input
depending on device variant
2 × Ferrites with key
depending on device variant
See “Connecting the ferrite (optional)” on page 47.
Table 39: Scope of delivery
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9 Accessories
9.1 General accessories
9.2 Order numbers for standard variants
General accessories
You find more information on available accessories in the Belden Online Catalog https:/
/catalog.belden.com
AutoConfiguration Adapter ACA22-USB-C (EEC) 942-239-001
6-pin terminal block with screw lock (10 pieces) 972 272-303
6-pin terminal block with screw lock (50 pieces) 943 845-013
2-pin terminal block with screw lock (10 pieces) 972 272-201
2-pin terminal block with screw lock (50 pieces) 943 845-009
Industrial HiVision Network Management Software 943 156-xxx
Table 40: Accessories: General accessories
Name Order number
BRS20-4TX 942 170-001
BRS20-8TX 942 170-002
BRS20-4TX/2FX 942 170-003
BRS20-8TX/2FX 942 170-004
BRS20-4TX/2FX-SM 942 170-005
BRS20-8TX/2FX-SM 942 170-006
BRS20-4TX-EEC 942 170-011
BRS20-8TX-EEC 942 170-012
BRS20-4TX/2FX-EEC 942 170-013
BRS20-8TX/2FX-EEC 942 170-014
BRS20-4TX/2FX-SM-EEC 942 170-015
BRS20-8TX/2FX-SM-EEC 942 170-016
BRS20-4TX/2SFP 942 170-021
BRS20-4TX/2SFP-EEC 942 170-022
BRS20-4TX-HL 942 170-023
BRS20-8TX-HL 942 170-024
BRS20-4TX/2FX-HL 942 170-025
BRS20-8TX/2FX-HL 942 170-026
BRS20-4TX/2FX-SM-HL 942 170-027
BRS20-8TX/2FX-SM-HL 942 170-028
BRS20-4TX/2SFP-HL 942 170-029
BRS20-4TX-EEC-HL 942 170-034
Table 41: Order numbers for standard variants in plastic casing
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BRS20-8TX-EEC-HL 942 170-035
BRS20-4TX/2FX-EEC-HL 942 170-036
BRS20-8TX/2FX-EEC-HL 942 170-037
BRS20-4TX/2FX-SM-EEC-HL 942 170-038
BRS20-8TX/2FX-SM-EEC-HL 942 170-039
BRS20-4TX/2SFP-EEC-HL 942 170-040
BRS20-16TX 942 170-053
BRS20-16TX-EEC 942 170-054
BRS20-16TX/4SFP 942 170-055
BRS20-16TX/4SFP-EEC 942 170-056
BRS20-20TX/4SFP 942 170-057
BRS20-20TX/4SFP-EEC 942 170-058
BRS30-8TX/4SFP 942 170-007
BRS30-8TX/4SFP-EEC 942 170-017
BRS30-8TX/4SFP-HL 942 170-030
BRS30-8TX/4SFP-EEC-HL 942 170-041
BRS30-16TX/4SFP 942 170-059
BRS30-16TX/4SFP-EEC 942 170-060
BRS30-20TX/4SFP 942 170-061
BRS30-20TX/4SFP-EEC 942 170-062
BRS40-8TX 942 170-008
BRS40-8TX/4SFP 942 170-009
BRS40-8TX-EEC 942 170-018
BRS40-8TX/4SFP-EEC 942 170-019
BRS40-8TX/4SFP-HL 942 170-032
BRS40-8TX-HL 942 170-031
BRS40-8TX-EEC-HL 942 170-042
BRS40-8TX/4SFP-EEC-HL 942 170-043
BRS40-16TX 942 170-063
BRS40-16TX-EEC 942 170-064
BRS40-16TX/4SFP 942 170-065
BRS40-16TX/4SFP-EEC 942 170-066
BRS40-20TX/4SFP 942 170-067
BRS40-20TX/4SFP-EEC 942 170-068
BRS50-8TX/4SFP 942 170-010
BRS50-8TX/4SFP-EEC 942 170-020
BRS50-8TX/4SFP-HL 942 170-033
BRS50-8TX/4SFP-EEC-HL 942 170-044
BRS50-16TX/4SFP 942 170-069
BRS50-16TX/4SFP-EEC 942 170-070
BRS50-20TX/4SFP 942 170-071
BRS50-20TX/4SFP-EEC 942 170-072
PoE device variants
BRS32-8TX/4SFP 942 170-048
BRS32-8TX/4SFP-EEC 942 170-052
BRS42-8TX 942 170-047
Name Order number
Table 41: Order numbers for standard variants in plastic casing
94
Installation BRS20/22/30/32/40/42/50/52
Release
11
10/2021
9.3 Fast Ethernet SFP transceiver
BRS42-8TX-EEC 942 170-051
BRS42-8TX/4SFP 942 170-046
BRS42-8TX/4SFP-EEC 942 170-050
BRS52-8TX/4SFP 942 170-045
BRS52-8TX/4SFP-EEC 942 170-049
Fast Ethernet SFP transceiver Certification type
a
Temperature
range
Order number
M-FAST SFP-TX/RJ45 Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
942 098-001
M-FAST SFP-TX/RJ45 EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °)
942 098-002
The following operating conditions apply to twisted pair transceivers:
Longer RSTP switching times and link loss detection times compared to twisted pair ports
provided by the device directly.
It is currently not possible to set autocrossing manually.
M-FAST SFP-MM/LC Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
943 865-001
M-FAST SFP-MM/LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °)
943 945-001
M-FAST SFP-SM/LC Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
943 866-001
M-FAST SFP-SM/LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
943 946-001
M-FAST SFP-SM+/LC Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
943 867-001
M-FAST SFP-SM+/LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
943 947-001
M-FAST SFP-LH/LC Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
943 868-001
M-FAST SFP-LH/LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
943 948-001
SFP-FAST-MM/LC Entry level 0 °C ... +60 °C
(+32 °F ... +140 °F)
942 194-001
SFP-FAST-MM/LC EEC
a
Entry level 0 °C ... +70 °C
(+32 °F ... +158 °F)
942 194-002
SFP-FAST-SM/LC
a
Entry level 0 °C ... +60 °C
(+32 °F ... +140 °F)
942 195-001
SFP-FAST-SM/LC EEC
a
Entry level 0 °C ... +70 °C
(+32 °F ... +158 °F)
942 195-002
Table 42: Accessory: Fast Ethernet SFP transceiver
Name Order number
Table 41: Order numbers for standard variants in plastic casing
Installation BRS20/22/30/32/40/42/50/52
Release
11
10/2021
95
9.4 Gigabit Ethernet SFP transceiver
a. Use Entry level SFP transceivers for industrial applications that exclusively require the
following approvals: CE, FCC or UL 61010-2-201.
Use Standard level SFP transceivers for industrial applications that exclusively require
following approvals: CE, FCC, UL 61010-2-201, DNV, Lloyd’s Register, Bureau Veritas,
UL121201 (Hazardous Locations), IEC61850-3, EN 50121-4, ATEX or IECEx.
Gigabit Ethernet SFP transceiver Certification
type
a
Temperature range Order number
M-SFP-TX/RJ45 Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
943 977-001
M-SFP-TX/RJ45 EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
942 161-001
The following operating conditions apply to twisted pair transceivers:
Longer RSTP switching times and link loss detection times compared to twisted pair ports
provided by the device directly.
Cannot be used with Fast Ethernet ports.
Exclusively supports the autonegotiation mode including autocrossing.
M-SFP-SX/LC Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
943 014-001
M-SFP-SX/LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
943 896-001
M-SFP-MX/LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
942 108-001
M-SFP-LX/LC Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
943 015-001
M-SFP-LX/LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
943 897-001
M-SFP-LX+/LC Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
942 023-001
M-SFP-LX+/ LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
942 024-001
M-SFP-LH/LC Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
943 042-001
M-SFP-LH/LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
943 898-001
M-SFP-LH+/LC Standard level 0 °C ... +60 °C
(+32 °F ... +140 °F)
943 049-001
M-SFP-LH+/LC EEC Standard level 0 °C ... +70 °C
(+32 °F ... +158 °F)
942 119-001
SFP-GIG-LX/LC Entry level 0 °C ... +60 °C
(+32 °F ... +140 °F)
942 196-001
SFP-GIG-LX/LC EEC Entry level 0 °C ... +70 °C
(+32 °F ... +158 °)
942 196-002
Table 43: Accessory: Gigabit Ethernet SFP transceiver
96
Installation BRS20/22/30/32/40/42/50/52
Release
11
10/2021
9.5 2.5 Gigabit Ethernet SFP transceiver
9.6 Bidirectional Fast Ethernet SFP transceiver
a. Use Entry level SFP transceivers for industrial applications that exclusively require the
following approvals: CE, FCC or UL 61010-2-20.
Use Standard level SFP transceivers for industrial applications that exclusively require
following approvals: CE, FCC, UL 61010-2-201, DNV, Lloyd’s Register, Bureau Veritas,
UL121201 (Hazardous Locations), IEC61850-3, EN 50121-4, ATEX or IECEx.
2.5 Gigabit Ethernet SFP
transceiver
Certification
type
a
a. Use Standard level SFP transceivers for industrial applications that exclusively require
following approvals: CE, FCC, UL 61010-2-201, DNV, Lloyd’s Register, Bureau Veritas,
UL121201 (Hazardous Locations), IEC61850-3, EN 50121-4, ATEX or IECEx.
Temperature range Order
number
M-SFP-2.5-MM/LC EEC Standard level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 162-001
M-SFP-2.5-SM-/LC EEC Standard level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 163-001
M-SFP-2.5-SM/LC EEC Standard level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 164-001
M-SFP-2.5-SM+/LC EEC Standard level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 165-001
M-SFP-2.5-LH/LC Standard level 0 °C ... +60 °C (+32 °F ... +140 °F) 942 220-001
Table 44: Accessory: 2.5 Gigabit Ethernet SFP transceiver
Bidirectional Fast Ethernet
SFP transceiver
Certificatio
n type
ab
a. Use Entry level SFP transceivers for industrial applications that exclusively require the
following approvals: CE, FCC or UL 61010-2-20.
b.
Temperature range Order
number
SFP-FAST-BA MM/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 204-001
SFP-FAST-BB MM/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °) 942 204-002
SFP-FAST-BA SM/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °) 942 205-001
SFP-FAST-BB SM/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 205-002
SFP-FAST-BA SM+/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 206-001
SFP-FAST-BB SM+/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 206-002
Table 45: Accessory: Bidirectional Fast Ethernet SFP transceiver
Installation BRS20/22/30/32/40/42/50/52
Release
11
10/2021
97
9.7 Bidirectional Gigabit Ethernet SFP
transceiver
Bidirectional Gigabit
Ethernet SFP transceiver
Certificatio
n type
a
a. Use Entry level SFP transceivers for industrial applications that exclusively require the
following approvals: CE, FCC or UL 61010-2-20.
Temperature range Order
number
SFP-GIG-BA LX/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 207-001
SFP-GIG-BB LX/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 207-002
SFP-GIG-BA LX+/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 208-001
SFP-GIG-BB LX+/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 208-002
SFP-GIG-BA LH/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 209-001
SFP-GIG-BB LH/LC EEC Entry level 0 °C ... +70 °C (+32 °F ... +158 °F) 942 209-002
Table 46: Accessory: Bidirectional Gigabit Ethernet SFP transceiver
98
Installation BRS20/22/30/32/40/42/50/52
Release
11
10/2021
10 Underlying technical standards
The device has an approval based on a specific standard exclusively if the
approval indicator appears on the device casing.
If your device has a shipping approval according to DNV, you find the
approval mark printed on the device label. You will find out whether your
device has other shipping approvals on the Hirschmann website at
www.hirschmann.com in the product information.
The device generally fulfills the technical standards named in their current
versions.
Name
ANSI/UL 121201 Nonincendive Electrical Equipment for Use in Class I and II,
Division 2 and Class III, Divisions 1 and 2 Hazardous
(Classified) Locations
DNVGL-CG-0339 Environmental test specification for electrical, electronic and
programmable equipment and systems.
FCC 47 CFR Part 15 Code of Federal Regulations
NEMA TS 2 Traffic Controller Assemblies with NTCIP Requirements
(environmental requirements)
UL 61010-2-201 Safety requirements for electrical equipment for measurement,
control, and laboratory use - Part 2-201: Particular requirements
for control equipment
EN 50121-4 Railway applications – EMC – Emission and immunity of the
signaling and telecommunications apparatus (Rail Trackside)
EN 55032 Electromagnetic compatibility of multimedia equipment –
Emission Requirements
IEC/EN 62368-1 Equipment for audio/video, information and communication
technology - Part 1: safety 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
IEEE 802.3 Ethernet
Table 47: List of the technical standards
Installation BRS20/22/30/32/40/42/50/52
Release
11
10/2021
99
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.com.
This site also includes a free of charge knowledge base and a software
download section.
Customer Innovation Center
The Customer Innovation 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 https://www.belden.com/solutions/customer-innovation-
center.
Support ranges from the first installation through the standby service to
maintenance concepts.
With the Customer Innovation Center, you decide against making any
compromises in any case. Our client-customized package leaves you free to
choose the service components you want to use.
Internet:
https://www.belden.com/solutions/customer-innovation-center
