Belden RS32, RS40-0009, RS32-0802, RS30-1602, RS30-0802 User Manual

User Manual

Installation
Industrial ETHERNET Rail Switch

RS20/RS22/RS30/RS32/RS40 Family

RPS90/48V HV

-/N

+/L

U: 110 / 230 VAC
U: 60 / 250 VDC

P

48-54V

0V

+48V / 1,9A

1

2

Aufkleber MAC-Adresse

3

4

9

FAULT

+24V(P1) 0V 0V

P

Stand by

RM

Stand by

USB

IP-ADDRESS

RS40

+24V(P2)

FAULT
RM

ON

V.24

1

3

5

7

RS32

LS DA

1

GB

2

4

6

8

LS DA

2

GB

FAULT

+48V(P1) 0V 0V +48V(P2)

P

Stand by

RM

ON

Stand by

USB

V.24

IP-ADDRESS

Aufkleber MAC-Adresse

FAULT
RM

3

4

5

6

7

8

9

10

RS40-0009... RS32-0802... RPS90/48V HV

RS30

FAULT

+24V(P1) 0V 0V

+24V(P2)

LS

1

DA

LS

2

DA

P

Stand by

RM

Stand by

USB

IP-ADDRESS

Aufkleber MAC-Adresse

FAULT
RM

ON

V.24

LS DA

1

3

4

5

6

7

8

9

10

IP-ADDRESS

LS DA

2

Aufkleber MAC-Adresse

3

5

7

9

11

13

15

17

+24V(P1) 0V 0V

4

Stand by

6

Stand by

8

10

12

14

16

18

P

RM

USB

RS20

FAULT

+24V(P2)

FAULT
RM

ON

V.24

19

21

23

LS DA

1

LS DA

2

20

LS DA

22

3

24

LS DA

1

LS DA

2

LS DA

3

LS DA

4

RS30-1602...

FAULT

+24V(P1) 0V 0V

P

Stand by

RM

ON

Stand by

USB

V.24

IP-ADDRESS

Aufkleber MAC-Adresse

+24V(P2)

FAULT
RM

IP-ADDRESS

Aufkleber MAC-Adresse

RS20

4

5

6

7

8

9

5

7

9

11

LS DA

1

LS DA

2

+24V(P1) 0V 0V

Stand by

Stand by

6

8

10

12

+24V(P1) 0V 0V

Stand by

Stand by

IP-ADDRESS

FAULT

P

RM

USB

V.24

FAULT

P

RM

USB

V.24

Aufkleber MAC-Adresse

RS30

+24V(P2)

FAULT
RM

ON

13

14

15

16

17

18

RS20

+24V(P2)

FAULT
RM

ON

+24V(P1) 0V 0V

Stand by

RM

Stand by

USB

IP-ADDRESS

3

4

5

6

7

Aufkleber MAC-Adresse

8

RS20

FAULT

+24V(P2)

P

FAULT
RM

ON

V.24

LS

1

DA

LS

2

DA

LS

3

DA

LS

4

DA

RS30-0802...

Installation RS20/22/30/32/40

Release 03 06/2013

RS20-0900...

RS20-0800...RS20-2400... RS20-0400...

Technical support

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

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

© 2013 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. For devices with embedded software, the end-user license agreement on the
enclosed CD/DVD applies.

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

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

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

Printed in Germany
Hirschmann Automation and Control GmbH
Stuttgarter Str. 45-51
72654 Neckartenzlingen
Germany
Tel.: +49 1805 141538

RS20/22/30/32/40 039 692-003-03-0613 –05.06.2013

Contents

Safety instructions 4

About this Manual 14

Key 14

1 Description 15

1.1 Description of the device variants 16

1.1.1 Combination options for RS20/30 17

1.1.2 Combination options for RS40 20

1.1.3 Number of ports and media for RS20-... 21

1.1.4 Number of ports and media for RS30-... 25

1.1.5 Number of ports and media for RS40-... 28

1.2 Device variants with PoE (optional) 29

1.2.1 Number of ports and media for devices with PoE 29

1.2.2 PoE power units 31

2 Assembly and start-up 32

2.1 Installing the device 32

2.1.1 Unpacking and checking 32

2.1.2 Installing the SFP transceivers (optional) 33

2.1.3 Insert data in label area 33

2.1.4 Adjust DIP switch settings 34

2.1.5 RS20/RS30/RS40: supply voltage and signal contact 34

2.1.6 RS22/RS32: supply voltage and signal contact 36

2.1.7 Installing the device on the DIN rail, grounding 40

2.1.8 Dimension drawings 43

2.1.9 Connecting the ferrite 46

2.1.10 Installing the terminal block, start-up procedure 47

2.1.11 Connecting the data lines 47

2.2 Display elements 50

2.3 Basic set-up 52

2.4 Maintenance 54

2.5 Disassembly 55

3 Technical data 56

A Further Support 65

Installation RS20/22/30/32/40

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3

Safety instructions

 Certified usage

Please observe the following: The device may only be employed for the
purposes described in the catalog and technical description, and only in
conjunction with external devices and components recommended or
approved by the manufacturer. The product can only be operated
correctly and safely if it is transported, stored, installed and assembled
properly and correctly. Furthermore, it must be operated and serviced
carefully.

 Supply voltage

For safety reasons the devices have been designed to operate at low
voltages. Thus, they may only be connected to the supply voltage
connections and to the signal contact with SELV circuits with the voltage
restrictions in accordance with IEC/EN 60950-1.
The supply voltage is electrically isolated from the housing.

 Use undamaged parts.
 Relevant for North America:

The device may only be connected to a Class 2 supply voltage that
fulfills the requirements of the National Electrical Code, Table 11(b). If
the voltage is being supplied redundantly (two different voltage
sources), the combined supply voltages must fulfill the requirements of
the National Electrical Code, Table 11(b).

 Relevant for North America: For use in class 2 circuits.

Use 60/75 °C (140/167 °F) or 75 °C (167 °F) copper (Cu) wire only.

 Relevant for North America

for devices certified for hazardous locations:
Power, input and output (I/O) wiring must be in accordance with
Class I, Division 2 wiring methods [Article 501-4(b) of the National
Electrical Code, NFPA 70] and in accordance with the authority having
jurisdiction.

 The device does not contain any service components. Internal fuses

are only triggered if there is a fault in the device. If the device is not
functioning correctly, or if it is damaged, switch off the voltage supply
and return the device to the plant for inspection.

 Only switch on the supply voltage for the device when the following

prerequisites are fulfilled:

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

Installation RS20/22/30/32/40

4

Release 03 06/2013

 Supply voltage for PoE power supply units (optional)

 Connect the protective conductor with the ground screw before you

set up the other connections. When removing the connections, you
remove the protective conductor last.

 Make sure that the cross-section of the protective conductor cable is

the same size as or bigger than the cross-section of the voltage supply
cables.

 Only use connection cables that are permitted for the specified

temperature range.

WARNING

ELECTRIC SHOCK

Only connect a supply voltage as described in the data plate of your device.

 PoE power supply unit RPS90/48V LV:18 V DC to 60 V DC
 PoE power supply unit RPS90/48V HV:48 V DC to 320 V DC or 90 V AC

to 265 V AC

- If the neutral conductor or the negative terminal of the supply voltage is not
grounded

- If you are using a DC voltage greater than 125 V DC for the supply voltage
install a suitable input fuse.
For RPS90/48V-LV power supply units, use a slow-blow fuse with a nominal
rating of 10 A for the voltage supply input.
For RPS90/48V-HV power supply units, use a slow-blow fuse with a
nominal rating of 6.3 A.
With AC power supply, use a cable cross-section of at least 0.75 mm² (for
North America AWG 18) for the current conductor at the voltage input.
With DC power supply, use a cable cross-section of at least 1.0 mm² (for
North America AWG 16) for the current conductor at the voltage input.

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

 Shielding ground

Note: The shield ground wire of the twisted pair lines is connected to the
front panel as a conductor.

 Beware of possible short circuits when connecting a cable section with

conductive shielding braiding.

Installation RS20/22/30/32/40

Release 03 06/2013

5

 Hazardous Locations

Relevant for North America for devices certified for Hazardous Locations:
Power, input and output (I/O) wiring must be in accordance with Class I,
Division 2 wiring methods [Article 501-4(b) of the National Electrical
Code, NFPA 70] and in accordance with the authority having jurisdiction.

SUITABLE FOR USE IN CLASS I, DIVISION 2, GROUPS A, B, C AND D
HAZARDOUS LOCATIONS, OR NON-HAZARDOUS LOCATIONS
ONLY.
WARNING – EXPLOSION HAZARD – SUBSTITUTION OF ANY
COMPONENTS MAY IMPAIR SUITABLE FOR CLASS I, DIVISION 2.
WARNING – EXPLOSION HAZARD – DO NOT DISCONNECT
EQUIPMENT WHILE THE CIRCUIT IS LIVE OR UNLESS THE AREA IS
KNOWN TO BE FREE OF IGNITABLE CONCENTRATIONS.

The USB connector is for temporary connection only. Do not use,
connect, or disconnect unless area is known to be non-hazardous.
Connection or disconnection in an explosive atmosphere could result in
an explosion.

Peripheral equipment must be suitabel for the location it is used in.
Use 60/75 °C (140/167 °F) or 75 °C (167 °F) copper (Cu) wire only.

Installation RS20/22/30/32/40

6

Release 03 06/2013

CONTROL DRAWING: Hazardous Locations Class I, Division 2, Groups A, B ,C ,D

Notes:

The nonincendive field wiring circuit concept allows interconnection of nonincendive field wiring apparatus
and associated nonincendive field wiring apparatus using any of the wiring methods permitted for
unclassified locations when certain parametric conditions are met.

C

a

 Ci + C

Cable

; La Li + L

Cable

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

Nonincendive Field Wiring Parameters:

... for Class I, Division 2, Groups A,B,C,D =>

V

max

[V]

I

max

[mA]

C

i

[nF]

L

i

[µH]

Fault contacts

30 90 2.5 1.0

WARNING - EXPLOSION HAZARD – SUBSTITUTION OF ANY COMPONENTS MAY IMPAIR
SUITABILITY FOR HAZARDOUS LOCATIONS OR EXPLOSIVE ATMOSPHERES.

WARNING - EXPLOSION HAZARD - DO NOT DISCONNECT EQUIPMENT UNLESS POWER HAS BEEN
SWITCHED OFF OR THE AREA IS KNOWN TO BE NON-HAZARDOUS.

DO NOT OPEN WHEN ENERGIZED.

:

CONTROL DRAWING for RS20, RS22, RS30, RS32 and RS40 Family

Size A4 Document No.: 000157671DNR Rev. 0
Date: 2011-09-21 Sheet 1 of 1

NON HAZARDOUS LOCATION

USB Port for Auto Configuration
Adapter.

P1

P2

HAZARDOUS LOCATION

Fault contacts. Equipment with nonincendive
field wiring parameters:
V<30V I<90mA L

<1,0µH Ci<2.5nF

USB Port for Auto Configuration Adapter.
For maintenance only – See Installation
Instructions

USB Port for Auto Configuration Adapter.
For maintenance only – See Installation

Power supply (Redundant: P1 P2)
Type “P”: 48Vdc
(47Vdc min. … 52Vdc max.)

Fault contacts. Equipment with nonincendive
field wiring parameters:
V<30V I<90mA L

i

<1,0µH Ci<2.5nF

Power supply:
(Redundant: P1 P2)
Type “D”: 9.6Vdc – 60Vdc

P1

P2

P1

P2

Instructions

Entity Parameters

i

Installation RS20/22/30/32/40

Release 03 06/2013

7

 ATEX directive 94/9/EG – specific regulations for safe

operation

Relevant for RS20/22/30/32/40 devices when operating in explosive gas
atmospheres according to ATEX Directive 94/9/EC, the following applies:
 List of Standards:

EN 60079-0:2009
EN60079-15:2010
Certificate No.: DEKRA 11ATEX0139 X or KEMA 09ATEX0067 X.

 Make sure that the device has the following label:

II 3G Ex nA IIC T4 Gc DEKRA 11ATEX0139 X

for RS20/22/30/32 types.

II 3G Ex nA IIC T3 ... T4 Gc KEMA 09ATEX0067 X

for RS40 types.

Ambient rating and temperature code for RS20 and RS30 types:
T4: 0 °C ≤ Ta ≤ +60 °C for „S“ types (item 14 of nomenclature
breakdown) or
T4: −40 °C ≤ Ta ≤ +70 °C for „T“ or „E“ types (item 14 of
nomenclature breakdown).

Ambient rating and temperature code for RS22 and RS32 types:
T4: −40 °C ≤ Ta ≤ +50 °C for „T“ or „E“ types (item 14 of
nomenclature breakdown) or
T4: 0 °C ≤ Ta ≤ +50 °C for „S“-Typen (item 14 of nomenclature
breakdown)

Ambient rating and temperature code for RS40 types:
T3: −40 °C ≤ Ta ≤ +70 °C for „T“ or „E“ types (item 14 of
nomenclature breakdown).
T4: −40 °C ≤ Ta ≤ +60 °C for „T“ or „E“ types (item 14 of
nomenclature breakdown) or
T4: 0 °C ≤ Ta ≤ +60 °C for „S“ types (item 14 of nomenclature
breakdown)

 The modules shall be installed in a suitable enclosure in accordance

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

Installation RS20/22/30/32/40

8

Release 03 06/2013

 When the temperature under rated conditions exceeds 70 °C at the

cable or conduit entry point, or 80 °C at the branching point of the
conductors, the temperature specification of the selected cable and
cable entries shall be in compliance with the actual measured
temperature values.

 Provisions shall be made to prevent the rated voltage from being

exceeded by transient disturbances of more than 40 %.

 Connectors shall be connected or disconnected exclusively in dead-

voltage state.

 DIP switches shall be switched exclusively in dead-voltage state.

The USB port shall remain disconnected.

 Housing

WARNING

ELECTRIC SHOCK

Never insert sharp objects (small screwdrivers, wires, etc.) into the inside of
the device.
Never insert sharp objects (small screwdrivers, wires, etc.) into the
connection terminals for the supply voltage or the signal contact, and do not
touch the terminals!

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

CAUTION

OVERHEATING OF THE DEVICE

When installing the device, ensure that the ventilation slots are not covered.
Make sure there is at least 10 cm (3.94 in) of space.

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

Only technicians authorized by the manufacturer are permitted to open
the housing.
The housing is grounded via the separate ground screw on the bottom left
of the front panel.

Installation RS20/22/30/32/40

Release 03 06/2013

9

For the ground conductor, use a cable with a cross section of at least

1.0 mm².
 Make sure there is at least 3.94 in (10 cm) of space in front of the

ventilation slits of the housing.

 The device must be installed in the vertical position.
 If installed in a living area or office environment, the device must be

operated exclusively in switch cabinets with fire protection
characteristics in accordance with EN 60950-1.

 Environment

 Only operate the device at the specified ambient temperature

(temperature of the surrounding air at a distance of up to 5 cm from the
device) and at the specified relative humidity.

 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 within the pollution degree specified

in the technical data.

 Qualification requirements for personnel

Qualified personnel as understood in this manual and the warning signs,
are persons who are familiar with the setup, assembly, startup, and
operation of this product and are appropriately qualified for their job. This
includes, for example, those persons who have been:

 trained or directed or authorized to switch on and off, to ground and to

label power circuits and devices or systems in accordance with current
safety engineering standards;

 trained or directed in the care and use of appropriate safety equipment

in accordance with the current standards of safety engineering;

 trained in providing first aid.

 General safety instructions

This device is operated by electricity. You must follow precisely the
prescribed safety requirements for the voltage connections in this
document.

See “Supply voltage” on page 4.
See “Supply voltage for PoE power supply units (optional)” on page 5.

10

Installation RS20/22/30/32/40

Release 03 06/2013

Non-observance of these safety instructions can cause material damage
and/or injuries.
 Only appropriately qualified personnel should work on this device or in

its vicinity. The personnel must be thoroughly familiar with all the
warnings and maintenance procedures outlined in this operating
manual.

 The proper and safe operation of this device depends on proper

handling during transportation, proper storage and assembly, and
conscientious operation and maintenance procedures.

 Never start operation with damaged components.
 Only use the devices in accordance with this manual. In particular,

observe all warnings and safety-related information.

 Any work that may be required on the electrical installation may only

be carried out by personnel trained for this purpose.

Note: LED or LASER components in compliance with IEC 60825-1
(2007):
CLASS 1 LASER PRODUCT
CLASS 1 LED PRODUCT

 National and international safety regulations

 Make sure that the electrical installation meets local or nationally

applicable safety regulations.

 E marking

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

RPS90/48V LV:
72/245/EWG, 2004/104/EG, 2009/19/EG
Guideline for standardizing the regulations of member states relating to
radio interference from motor vehicles. Certified devices are marked with
an e1 type approval indicator.

Note: For use in connection with a suitable type approved power supply
only.

 CE marking

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

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

Installation RS20/22/30/32/40

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11

2004/108/EG (EMV)
Directive of the European Parliament and the council for standardizing the
regulations of member states with regard to electromagnetic
compatibility.

RPS90/48V HV:
2006/95/EG
Directive of the European Parliament and the council for standardizing the
regulations of member states with regard to electrical equipment to be
used within specific voltage ranges.

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

Hirschmann Automation and Control GmbH
Stuttgarter Str. 45-51
72654 Neckartenzlingen
Tel.: +49 1805 141538

The device can be used in the industrial sector.

 Interference immunity: EN 61000-6-2
 Emitted interference: EN 55022

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.

Note: The assembly guidelines provided in these instructions must be
strictly adhered to in order to observe the EMC threshold values.

 FCC note

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; (2) this device must accept any interference received,
including interference that may cause undesired operation.
Appropriate testing has established that this device fulfills the
requirements of a class A digital device in line with part 15 of the FCC
regulations.
These requirements are designed to provide sufficient protection against
interference when the device is being used in a business environment.
The device creates and uses high frequencies and can also radiate high
frequencies, and if it is not installed and used in accordance with this
operating manual, it can cause radio transmission interference. The use
of this device in a living area can also cause interference, and in this case
the user is obliged to cover the costs of removing the interference.

12

Installation RS20/22/30/32/40

Release 03 06/2013

 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.

Installation RS20/22/30/32/40

Release 03 06/2013

13

About this Manual

The “Installation” user manual contains a device description, safety
instructions, a description of the display, and the other information that you
need to install the device.
The following manuals are available as PDF files on the CD/DVD supplied:

 Installation user manual
 Basic Configuration user manual
 Redundancy Configuration user manual
 Reference manual for the graphical user interface
 Command Line Interface user manual

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

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

Key

The symbols used in this manual have the following meanings:

 Listing

 Work step



14

Subheading

Installation RS20/22/30/32/40

Release 03 06/2013

1 Description

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

 Number of ports
 Transmission speed
 Media type
 Types of connectors
 Temperature range
 Certifications
 Software variant

The RS20/22/30/32/40 devices are designed for the special requirements of
industrial automation. They meet the relevant industry standards, provide
very high operational reliability, even under extreme conditions, and also
provide long-term reliability and flexibility.
The devices allow you to set up switched industrial Ethernet networks that
conform to the IEEE 802.3 standard.

The devices work without a fan.

The voltage is supplied redundantly.

The following installation options are available:

 simply snapping them onto a DIN rail
 mounting them on a wall (only RS22/RS32)

Depending on the device variant, you can choose various media to connect
terminal devices and other infrastructure components:

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

The twisted pair ports support:

 Autocrossing
 Autonegotiation
 Autopolarity

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

 a Web browser
 Telnet
 SSH
 HiDiscovery (Software for putting the device into operation)
 management software (such as Industrial HiVision)
 a V.24 interface (locally on the device)

The ring redundancy concept allows the network to be reconfigured quickly
after a failure.

Installation RS20/22/30/32/40

Release 03 06/2013

15

Product configuration data can be provided by:

 diagnosis displays
 displaying the operating parameters
 a label area for the IP address

The devices provide you with a large range of functions, which the manuals
for the operating software inform you about. You will find these manuals as
PDF files on the enclosed CD/DVD, or you can download them from the
Internet on the Hirschmann product pages (www.hirschmann.com).
The Hirschmann network components help you ensure continuous
communication across all levels of the company.

1.1 Description of the device variants

The devices differ with regard to the range of software functions, the number
of interfaces, and the media type for connecting segments.

The table below shows three port categories for each product variant: uplink
ports, PoE ports and other ports. The table also shows for each product
category the number of ports you can select, and the type of ports. In the
column for the port type, the abbreviations F/O (optical fiber) and TP (twisted
pair) indicate the media type, while the abbreviations DSC, ST, SFP and
RJ45 indicate the socket type.

Uplink ports Other ports PoE ports included

Variant NumberType Number Type NumberType

RS20-... 2 Ports 1 and 2

10/100 Mbit/s,
media selectable,
DSC, ST, RJ45

3 Ports 1 to 3

10/100 Mbit/s,
media selectable,
DSC, ST, RJ45

RS22-... 2 Ports 1 and 2

10/100 Mbit/s,
media selectable,
DSC, ST, RJ45

3 Ports 1 to 3

10/100 Mbit/s,
media selectable,
DSC, ST, RJ45

2, 6, 14, 2210/100 Mbit/s,

TP, RJ45

6, 14, 22 10/100 Mbit/s,

TP, RJ45

6, 14, 22 10/100 Mbit/s,

TP, RJ45

6, 14, 22 10/100 Mbit/s,

TP, RJ45

——

——

4 10/100 Mbit/s,

TP, RJ45

4 10/100 Mbit/s,

TP, RJ45

Table 1: Number and type of ports

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Installation RS20/22/30/32/40

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Uplink ports Other ports PoE ports included

Variant NumberType Number Type NumberType

RS30-... 2 Ports 1 and 2

1000 Mbit/s,
media selectable,
SFP, RJ45

4 Ports 1+2, 3+4

2x100/1000 Mbit/s,
2x 100 Mbit/s,
F/O, SFP

RS32-... 2 Ports 1 and 2

1000 Mbit/s,
media selectable,
SFP, RJ45

4 Ports 1+2, 3+4

2x100/1000 Mbit/s,
2x 100 Mbit/s,
F/O, SFP

RS40-... 4 Ports 1 to 4

4 combo ports:
100/1000 Mbit/s,
F/O, SFP
10/100/1000 Mbit/s,
TP, RJ45

8, 16, 24 10/100 Mbit/s,

TP, RJ45

6, 14, 22 10/100 Mbit/s,

TP, RJ45

8, 16, 24 10/100 Mbit/s,

TP, RJ45

6, 14, 22 10/100 Mbit/s,

TP, RJ45

5 10/100/

1000 Mbit/s,
TP, RJ45

——

——

4 10/100 Mbit/s,

TP, RJ45

4 10/100 Mbit/s,

TP, RJ45

——

Table 1: Number and type of ports

1.1.1 Combination options for RS20/30

The product designation of your device is made from combining the desired
product characteristics in accordance with the following table. You will find
the corresponding short designation in columns 3 and 4.

Item Characteristic Ident. Ident.

1 to 4 Product RS20 Rail Switch without gigabit ports

RS30 Rail Switch with gigabit ports
RS22 Rail Switch without gigabit ports, with

RS32 Rail Switch with gigabit ports, with PoE
5 - (hyphen) ­6 to 7 Number of 10/100 04 4 × 10/100 Mbit/s Ethernet

Mbit/s ports 08 8 × 10/100 Mbit/s Ethernet

09 9 × 10/100 Mbit/s Ethernet

16 16 × 10/100 Mbit/s Ethernet

17 17 × 10/100 Mbit/s Ethernet

24 24 × 10/100 Mbit/s Ethernet

25 25 × 10/100 Mbit/s Ethernet
8 and 9 Number of 1000 00 0 × 1000 Mbit/s Ethernet

2

a)

Property

b)c)

PoE

d)e)

Table 2: Combination options of device variants RS20/RS30/RS22/RS32

Installation RS20/22/30/32/40

Release 03 06/2013

17

Item Characteristic Ident. Ident.

a)

2

Property

Mbit/s ports 02 2 × 1000 Mbit/s Ethernet (not for 4 port

devices)

f)

10 and 11 a)Uplink port(s) T1 Twisted pair T(X), RJ45

1 port (Ident.

M2 MM

g)

Multimode FX, DSC, 100 Mbit/s

column)
or alternatively M4 NN
2 ports S2 VV
(Ident.2 column) S4 UU

E2 EE
L2 LL
G2 GG

h)

Multimode FX, ST, 100 Mbit/s

i)

Singlemode FX, DSC, 100 Mbit/s

j)

Singlemode FX, ST, 100 Mbit/s

k)l)

Singlemode+ FX, DSC, 100 Mbit/s

m)

Singlemode Longhaul, DSC, 100 Mbit/s

n)

Singlemode Longhaul FX DSC 200 km,

100 Mbit/s
O6 OO
Z6 ZZ

o)p)

SFP slot, 1000 Mbit/s

q)r)

SFP slot, 100 Mbit/s

12 and 13 a)See items 10 and

11

14 Temperature range S Standard 0 °C to +60 °C

T Extended -40 °C to +70 °C

s)

t)u)

E Extended -40 °C to +70 °C, conformal

v)w)x)

15 Voltage range incl.

maximum
Tolerances P

D

coating

y)

9.6 V DC to 60 V DC or 18 V AC to

30 V AC

z)

47 V DC to 52 V DC (PoE)

16 Certification A CE, UL 508, ISA 12.12.01 (UL 1604)

H CE, UL 508, ISA 12.12.01 (UL 1604), GL,

Railway (along track), Sub Station

aa)

B

CE, UL 508, ISA 12.12.01 (UL 1604), GL,

Railway (along track), Sub Station,

Hazardous Location (ATEX)

17 Software variant E Enhanced

P Professional

Table 2: Combination options of device variants RS20/RS30/RS22/RS32

a. For device variants with two uplink ports you use the “Ident.” column for items 10+11 and for

items 12+13.
For device variants with three uplink ports you use the “Ident.2” column for items 10+11 and
the “Ident.” column for items 12+13.
For device variants with four uplink ports you use the “Ident.2” column for items 10+11 and

for items 12+13.
b. Not in combination with “04×100 Mbit/s Ethernet”.
c. The last four ports of the device have PoE (Power over Ethernet).
d. Not in combination with “04×100 Mbit/s Ethernet”.
e. The last four ports of the device have PoE (Power over Ethernet).
f. Not in combination with “04×100 Mbit/s Ethernet”.
g. For RS20-0900..., RS20-1700..., RS20-2500...;

RS22-0900..., RS22-1700..., RS22-2500...
h. For RS20-0900..., RS20-1700..., RS20-2500...;

RS22-0900..., RS22-1700..., RS22-2500...
i. For RS20-0900..., RS20-1700..., RS20-2500...;

RS22-0900..., RS22-1700..., RS22-2500...
j. For RS20-0900..., RS20-1700..., RS20-2500...;

RS22-0900..., RS22-1700..., RS22-2500...
k. For RS20-0900..., RS20-1700..., RS20-2500...;

RS22-0900..., RS22-1700..., RS22-2500...

Installation RS20/22/30/32/40

18

Release 03 06/2013

l. Devices with ports with product code E2 or EE: only certification “A” available (see product

code for item 16).

m. For RS20-0900..., RS20-1700..., RS20-2500...;

RS22-0900..., RS22-1700..., RS22-2500...

n. For RS20-0900..., RS20-1700..., RS20-2500...;

RS22-0900..., RS22-1700..., RS22-2500...
o. Not in combination with “04×100 Mbit/s Ethernet”.
p. In combination with “2nd uplink port” “ZZ” and “1st uplink port” “OO”.
q. In combination with “2nd uplink port” “ZZ” and “1st uplink port” “OO”.
r. Not in combination with “04×100 Mbit/s Ethernet”.
s. With a UL-508, ATEX or ISA 12.12.01 certification, the maximum operating temperature for

the standard ‘S’ temperature range for PoE-capable devices (RS22-..., RS32-...) +50 °C.
t. The extended ‘E’ temperature range for the PoE-capable devices is −40 °C to +60 °C.

With a UL-508, ATEX or ISA 12.12.01 certification, the maximum operating temperature for

the extended ‘E’ temperature range for PoE-capable devices (RS22-..., RS32-...) +50 °C.
u. Not when using GG or G2 transceivers.
v. The extended ‘T’ temperature range for PoE-capable devices is −40 °C to +60 °C.

With a UL-508, ATEX or ISA 12.12.01 certification, the maximum operating temperature for

the extended ‘T’ temperature range for PoE-capable devices (RS22-..., RS32-...) +50 °C.
w. Not when using GG or G2 transceivers.
x. In combination with “2nd uplink port” “ZZ” and “1st uplink port” “OO”.
y. Not for PoE-capable devices (RS22-..., RS32-...).
z. For PoE-capable devices (RS22-..., RS32-...).
aa. Without railway certification EN 50155 (Train).

 Examples for product name

RS20-

RS20- Rail Switch without gigabit ports

09

09 9 × 100 Mbit/s Ethernet ports

00

00 0 × 1000 Mbit/s Ethernet ports

MM

MM Port 1 + 2 = 2 × Multimode FX, DSC, 100 Mbit/s

M2

M2 Port 3 = Multimode FX, DSC, 100 Mbit/s

S

S Temperature range standard: 0 °C ... +60 °C

D

D Voltage range: 9.6 V DC to 60 V DC or 18 V AC to 30 V AC

A

A Certifications: CE, UL 508, ISA 12.12.01 (UL 1604)

P

P Software variant: Professional

Table 3: Example of RS20 with 3 uplink ports: RS20-0900MMM2SDAP

RS30-

RS30- Rail Switch with gigabit ports

08

08 8 × 100 Mbit/s Ethernet ports

02

02 2 × 1000 Mbit/s Ethernet ports

O6

O6 Port 1 = SFP slot, 1000 Mbit/s

T1

T1 Port 2 = twisted pair TX, RJ45 connector, 1000 Mbit/s

T

T Temperature range extended: -40 °C to +70 °C

D

D Voltage range: 9.6 V DC to 60 V DC or 18 V AC to 30 V AC

A

A Certifications: CE, UL 508, ISA 12.12.01 (UL 1604)

E

E Software variant: Enhanced

Table 4: Example of RS30 with 2 uplink ports: RS30-0802O6T1TDAE

Installation RS20/22/30/32/40

Release 03 06/2013

19

Additional examples of devices with 3 or 4 uplink ports:

 RS20-0900NNM4TDAE for RS20 with 3 uplink ports (ST)

NN: 2 × Multimode FX, ST, 100 Mbit/s (ports 1 and 2)
M4: 1 × Multimode FX, ST, 100 Mbit/s (port 3)

 RS30-2402OOZZTDAP for RS30 with 4 uplink ports (SFP)

OO: 2 × SFP slot, 1000 Mbit/s (ports 1 and 2)
ZZ: 2 × SFP slot, 100 Mbit/s (ports 3 und 4)

Example of device with Power over Ethernet:

 RS32-0802O6T1SPAP for RS32 with 2 uplink ports and PoE

O6: 1 × SFP slot, 1000 Mbit/s (port 1)
T1: 1 × twisted pair TX, RJ45, 1000 Mbit/s (port 2)
P: Voltage range 47 V DC to 52 V DC (PoE)

1.1.2 Combination options for RS40

The product designation of your device is made from combining the desired
product characteristics in accordance with the following table. The
corresponding short designation is in column 3.

Item Characteristic Ident. Property

1 to 4 Product RS40 Rail Switch with gigabit ports
5 - (hyphen) ­6 and 7 Number of 10/100

Mbit/s ports

8 and 9 Number of 1000

Mbit/s ports

10 and 11 1st + 2nd uplink port CC 2 × combo port multirate (SFP slot: 100/1000 Mbit/s,

12 and 13 3rd + 4th uplink port CC 2 × combo port multirate (SFP slot: 100/1000 Mbit/s,

14 Temperature range S Standard 0 °C to +60 °C

15 Voltage range D 9.6 V DC to 60 V DC or 18 V AC to

16 Certification A CE, UL 508, ISA 12.12.01 (UL 1604)

17 Software variant E Enhanced

00 0 × 10/100 Mbit/s Ethernet

09 9 × 1000 Mbit/s Ethernet

alternatively twisted pair RJ45 socket: 10/100/1000
Mbit/s)

alternatively twisted pair RJ45 socket: 10/100/1000
Mbit/s)

T Extended -40 °C to +70 °C
E Extended -40 °C to +70 °C, conformal coating

30 V AC

H CE, UL, 508, GL, railway (along track), sub station.

Pending: ISA 12.12.01 (UL 1604).

B CE, UL, 508, GL, railway (along track), sub station.

Pending: ISA 12.12.01 (UL 1604), Hazardous
Location (ATEX).

P Professional

Table 5: Combination options for the device variants of the RS40

Installation RS20/22/30/32/40

20

Release 03 06/2013

 Examples for product name

RS40-

RS40- Rail Switch with gigabit ports

00

00 0 × 100 Mbit/s Ethernet ports

09

09 9 × 1000 Mbit/s Ethernet ports

CC

CC Port 1 + 2 = combo port: SFP slot (100/1000 Mbit/s),

CC

alternatively: RJ45 connector (10/100/1000 Mbit/s)

CC Port 3 + 4 = combo port: SFP slot (100/1000 Mbit/s),

E

E Temperature range extended (-40 °C to +70 °C) with conformal coating

D

D Voltage range: 9.6 V DC to 60 V DC or 18 V AC to 30 V AC

A

A Certifications: CE, UL 508, ISA 12.12.01 (UL 1604)

P

alternatively: RJ45 connector (10/100/1000 Mbit/s)

P Software variant: Professional

Table 6: Example of RS40 with 4 uplink ports: RS40-0009CCCCEDAP

1.1.3 Number of ports and media for RS20-...

+24V(P2)

RS20

1

FAULT

+24V(P1) 0V 0V

2

P

Stand by

RM

Stand by

USB

7

IP-ADDRESS

9

8

7

Aufkleber MAC-Adresse

RS20-0400T1T1...D... RS20-0400M2T1...D...

V.24

FAULT
RM

ON

3

4

5

LS

1

DA

LS

2

DA

LS

3

DA

LS

4

DA

6

RS20

FAULT

+24V(P1) 0V 0V

+24V(P2) +24V(P1) 0V 0V

P

FAULT

Stand by

RM

RM

ON

Stand by

USB

V.24

1

IP-ADDRESS

LS

1

DA

LS

2

DA

LS

3

DA

LS

Aufkleber MAC-Adresse

4

DA

Stand by

Stand by

IP-ADDRESS

FAULT

P

RM

USB

Aufkleber MAC-Adresse

RS20

+24V(P2)

FAULT
RM

ON

V.24

1

LS

1

DA

LS

2

DA

LS

3

DA

LS

2

4

DA

RS20-0400M2M2...D...

Figure 1: Device variants with 4 × 10/100 Mbit/s ports (RS20-0400...)

1 – plug-in terminal block, 6-pin
2 – LED display elements
3 – 2-pin DIP switch
4 – USB interface
5 – V.24 connection for external management
6 – ports in compliance with 10/100BASE-T(X) (RJ45 connections)
7 – port 1 + port 2, free choice of connections:
T1: Twisted-pair T(X), RJ45, 10/100 Mbit/s
M2: Multimode FX, DSC, 100 Mbit/s

Installation RS20/22/30/32/40

Release 03 06/2013

21

M4: Multimode FX, ST, 100 Mbit/s

RS20

LS DA

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Sta nd by

Aufkleber MAC-Adresse

IP-ADDRESS

2

LS DA

1

3

5

7

4

6

8

V.2 4

USB

P

Sta nd by

FAULT
RM

ON

1

2

3

4

5

6

7

8

9

7

RS20-0800M2M2...D...

RS20

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

1

3

5

7

2

4

6

8

V.24

USB

P

Stand by

FAULT
RM

ON

RS20-0800T1T1...D...

RS20

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

LS DA

1

3

5

7

4

6

8

V.24

USB

P

Stand by

FAULT
RM

ON

DA

2

LS

RS20-0800M2T1...D...

S2: Singlemode FX, DSC, 100 Mbit/s

S4: Singlemode FX, ST, 100 Mbit/s

L2: Singlemode Longhaul FX, DSC, 100 Mbit/s

G2: Singlemode Longhaul+ FX, DSC, 100 Mbit/s, 200 km

8 – MAC address field

9 – IP address field

Figure 2: Device variants with 8 × 10/100 Mbit/s ports (RS20-0800...)

1 to 9 – see figure 1

Installation RS20/22/30/32/40

Release 03 06/2013

22

Figure 3: Device variants with 16 × 10/100 Mbit/s ports (RS20-1600...)

RS20

LS DA

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Sta nd by

Aufkleber MAC-Adresse

IP-ADDRESS

2

LS DA

1

V.2 4

USB

P

Sta nd by

FAULT
RM

ON

3

5

7

9

4

6

8

10

11

13

15

12

14

16

RS20

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

LS DA

1

V.24

USB

P

Stand by

FAULT
RM

ON

3

5

7

9

4

6

8

10

11

13

15

12

14

16

2

DA

LS

1

2

3

4

5

6

66

7

8

9

7

RS20-1600M2M2...D...

RS20

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

1

3

5

7

2

4

6

8

9

11

13

15

10

12

14

16

V.24

USB

P

Stand by

FAULT
RM

ON

RS20-1600T1T1...D...

RS20-1600M2T1...D...

1 to 9 – see figure 1

1

2

3

4

5

RS20

FAULT

+24V(P1) 0V 0V

+24V(P2)

3

4

P

19

20

21

22

23

24

LS DA

1

6

IP-ADDRESS

DA

2

LS

Aufkleber MAC-Adresse

FAULT

Stand by

RM

5

6

RM

ON

Stand by

USB

7

8

9

10

V.24

11

12

19

13

14

15

16

17

18

20

21

22

23

24

IP-ADDRESS

Aufkleber MAC-Adresse

RS20-2400M2T1...D... RS20-2400T1T1...D...

LS DA

1

7

9

IP-ADDRESS

LS DA

8

2

Aufkleber MAC-Adresse

7

RS20-2400M2M2...D...

+24V(P2)

FAULT
RM

RS20

3

5

7

9

11

13

15

17

+24V(P1) 0V 0V

4

Sta nd by

6

RM

Sta nd by

USB

8

10

12

14

16

18

FAULT

P

ON

V.2 4

66

Figure 4: Device variants with 24 × 10/100 Mbit/s ports (RS20-2400...)

1 to 9 – see figure 1

Installation RS20/22/30/32/40

Release 03 06/2013

1

3

5

7

9

11

13

15

2

Stand by

4

Stand by

6

8

10

12

14

16

FAULT

+24V(P1) 0V 0V

P

RM

USB

RS20

+24V(P2)

FAULT
RM

ON

V.24

17

18

19

20

21

22

23

24

23

Figure 5: Device variants with 3 uplink ports (100 Mbit/s)

RS20

+24V(P1) 0V 0V

FAULT

+24V(P2)

4

6

8

10

12

14

16

18

5

7

9

11

13

15

17

19

20

22

24

21

23

25

RS20

+24V(P1) 0V 0V

FAULT

+24V(P2)

4

6

8

10

5

7

9

11

12

14

16

13

15

17

RS20

+24V(P1) 0V 0V

FAULT

+24V(P2)

4

6

8

5

7

9

LS DA

2

LS DA

1

LS DA

3

LS DA

2

LS DA

1

LS DA

3

LS DA

2

LS DA

1

LS DA

3

RM

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

RM

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

RM

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

1

2

3

4

5

6

66666

7

9

8

10

9

7

9

8

10

9

7

9

8

10

9

RS20-2500MMM2...D... RS20-1700MMM2...D...

RS20-0900MMM2...D...

1 to 6 – see figure 1

7 – port 3, free choice of connection:

T1: Twisted-pair T(X), RJ45, 10/100 Mbit/s

M2: Multimode FX, DSC, 100 Mbit/s

M4: Multimode FX, ST, 100 Mbit/s

S2: Singlemode FX, DSC, 100 Mbit/s

S4: Singlemode FX, ST, 100 Mbit/s

L2: Singlemode Longhaul FX, DSC, 100 Mbit/s

G2: Singlemode Longhaul+ FX, DSC, 100 Mbit/s, 200 km

8 – MAC address field

9 – port 1 + port 2, free choice of connections:

MM: Multimode FX, DSC, 100 Mbit/s

NN: Multimode FX, ST, 100 Mbit/s

VV: Singlemode FX, DSC, 100 Mbit/s

UU: Singlemode FX, ST, 100 Mbit/s

LL: Singlemode Longhaul FX, DSC, 100 Mbit/s

GG: Singlemode Longhaul+ FX, DSC, 100 Mbit/s, 200 km

10 – IP address field

24

Installation RS20/22/30/32/40

Release 03 06/2013

1.1.4 Number of ports and media for RS30-...

RS30

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Sta nd by

Aufkleber MAC-Adresse

IP-ADDRESS

3

5

7

9

4

6

8

10

V.2 4

USB

P

Sta nd by

FAULT
RM

ON

DA

2

LS

DA

1

LS

RS30

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand b y

Aufkleber MAC-Adresse

IP-ADDRESS

LS DA

1

V.24

USB

P

Stand b y

FAULT
RM

ON

DA

2

LS

3

5

7

9

4

6

8

10

RS30

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand b y

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand b y

FAULT
RM

ON

LS DA

1

LS DA

2

3

5

7

9

4

6

8

10

1

2

3

4

5

6

6

7

8

9

7

RS30-0802T1T1...D...

RS30-0802O6T1...D...RS30-0802O6O6...D...

Figure 6: Device variants with 2 × 1000 Mbit/s ports and 8 × 10/100 Mbit/s ports

(RS30-0802...)
1 – plug-in terminal block, 6-pin
2 – LED display elements
3 – 2-pin DIP switch
4 – USB interface
5 – V.24 connection for external management
6 – ports in compliance with 10/100BASE-T(X) (RJ45 connections)
7 – port 1 + port 2, free choice of connections:
T1: Twisted-pair T(X), RJ45, 10/100/1000 Mbit/s
O6: SX/LX, SFP slot, 1000 Mbit/s
8 – MAC address field
9 – IP address field

Installation RS20/22/30/32/40

Release 03 06/2013

25

Figure 7: Device variants with 2 × 1000 Mbit/s ports and 16 × 10/100 Mbit/s ports

RS30

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Sta nd by

Aufkleber MAC-Adresse

IP-ADDRESS

3

5

7

9

4

6

8

10

11

13

15

17

12

14

16

18

V.2 4

USB

P

Sta nd by

FAULT
RM

ON

2

DA

LS

1

DA

LS

RS30

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

3

5

7

9

4

6

8

10

11

13

15

17

12

14

16

18

LS DA

1

2

DA

LS

RS30

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

3

5

7

9

4

6

8

10

11

13

15

17

12

14

16

18

LS DA

1

LS DA

2

RS30-1602T1T1...D...

RS30-1602O6O6...D... RS30-1602O6T1...D...

1

2

3

4

5

6

66

7

8

9

7

RS30

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Sta nd by

Aufkleber MAC-Adresse

IP-ADDRESS

3

5

7

9

11

13

15

17

4

6

8

10

12

14

16

18

19

21

23

25

20

22

24

26

V.2 4

USB

P

Sta nd by

FAULT
RM

ON

2

DA

LS

1

DA

LS

RS30

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

3

5

7

9

11

13

15

17

4

6

8

10

12

14

16

18

19

21

23

25

20

22

24

26

LS DA

1

2

DA

LS

RS30

RM

+24V(P1) 0V 0V

FAULT

+24V(P2)

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

3

5

7

9

11

13

15

17

4

6

8

10

12

14

16

18

19

21

23

25

20

22

24

26

LS DA

1

LS DA

2

1

2

3

4

5

6

66

7

8

9

7

RS30-2402T1T1...D...

RS30-2402O6T1...D...RS30-2402O6O6...D...

(RS30-1602...)

1 to 9 – see figure 6

Figure 8: Device variants with 2 × 1000 Mbit/s ports and 24 × 10/100 Mbit/s ports

26

(RS30-2402...)

1 to 9 – see figure 6

Installation RS20/22/30/32/40

Release 03 06/2013

Figure 9: Device variants with 4 uplink ports

RS30

+24V(P1) 0V 0V

FAULT

+24V(P2)

5

7

9

11

13

15

17

19

6

8

10

12

14

16

18

20

21

23

25

22

24

26

RS30

+24V(P1) 0V 0V

FAULT

+24V(P2)

5

7

9

11

6

8

10

12

13

15

17

14

16

18

RS30

+24V(P1) 0V 0V

FAULT

+24V(P2)

5

7

9

6

8

10

LS DA

1

LS DA

2

LS DA

3

LS DA

4

LS DA

1

LS DA

2

LS DA

3

LS DA

4

LS DA

1

LS DA

2

LS DA

3

LS DA

4

RM

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

RM

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

RM

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

1

2

3

4

5

66666

7

8

8

9

10

10

7

8

8

9

10

10

7

8

8

9

10

10

RS30-2402OOZZ...D... RS30-1602OOZZ...D... RS30-0802OOZZ...D...

1 to 6 – see figure 6
7 – MAC address field
8 – port 3 + port 4:
ZZ: FX, SFP slot, 100 Mbit/s
9 – IP address field
10 – port 1 + port 2:
OO: FX/SX/LX, SFP slot, 100/1000 Mbit/s

Installation RS20/22/30/32/40

Release 03 06/2013

27

1.1.5 Number of ports and media for RS40-...

RS40

+24V(P1) 0V 0V

FAULT

+24V(P2)

1

3

5

7

2

4

6

8

1

2

3

4

RM

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

9

1

2

3

4

5

6

7

7

6

89

RS40-0009CCCCSD...

RS40

+24V(P1) 0V 0V

FAULT

+24V(P2)

1

3

5

7

2

4

6

8

1

2

3

4

RM

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

9

RS40-0009CCCCED...
RS40-0009CCCCTD...

Figure 10: Device variants with 9 × 1000 Mbit/s ports (RS40-0009...)

28

1 to 5 and 8 to 9 – see figure 6

6 – port 1 to port 4: combo ports (CC):

FX/SX/LX, SFP slot, 100 or 1000 Mbit/s

Alternatively: T(X), RJ45 connections, 10/100/1000 Mbit/s

7 – ports in compliance with 10/100/1000BASE-T(X) (RJ45 connections)

Installation RS20/22/30/32/40

Release 03 06/2013

1.2 Device variants with PoE (optional)

1.2.1 Number of ports and media for devices with PoE

FAULT

+48V(P1) 0V 0V +48V(P2)

P

Stand by

RM

ON

Stand by

USB

V.24

5

7

9

11

FAULT
RM

2

3

4

5

12

13

14

15

16

17

6

10

RS22

9

9

8

LS DA

1

LS DA

2

LS DA

3

IP-ADDRESS

Aufkleber MAC-Adresse

4

6

8

10

7

66

RS22-1700MMM2...P...

Figure 11: RS22 device variants with PoE (example: RS22-1700MMM2...P...)

1 to 5 and 7 to 9 – see figure 5
6 – ports in compliance with 10/100BASE-T(X) (RJ45 connections; the
PoE-capable ports 14 to 17 are indicated accordingly)

1

Installation RS20/22/30/32/40

Release 03 06/2013

29

RS32

RM

Stand by

Aufkleber MAC-Adresse

IP-ADDRESS

V.24

USB

P

Stand by

FAULT
RM

ON

1

2

3

4

5

6

6

LS DA

1

LS DA

2

LS DA

3

LS DA

4

7

8

8

9

10

10

5

7

9

6

8

10

RS32-0802OOZZ...P...

FAULT

+48V(P1) 0V 0V +48V(P2)

Figure 12: RS32 device variants with 4 uplink ports (example: RS32-

0802OOZZ...P...)

1 to 5 and 7 to 9 – see figure 9

6 – ports in compliance with 10/100BASE-T(X) (RJ45 connections; the

PoE-capable ports 7 to 10 are indicated accordingly)

Device variants RS22-... and RS32-... support Power over Ethernet (PoE) in
accordance with IEEE 802.3af.

They allow the connection and remote supply of, for example, IP telephones
(Voice over IP), webcams, sensors, printer servers and WLAN access points
via 10BASE-T/100BASE-TX. With PoE, these terminal devices are powered
by the twisted-pair cable.

The RS22-... and RS32-... devices provide four 10BASE-T/100BASE-TX
ports (RJ45 sockets) for connecting network segments or PoE terminal
devices (PD, Powered Device) for all IEEE802.3af classes up to a maximum
power output of 15.4 W.

The four PoE-capable ports are the four bottom ports on the right side of the
device (see figures in section “Number of ports and media for devices with

PoE” on page 29. The PoE ports are indicated in red on the device).

The current is supplied on wire pairs transmitting the signal; the individual
ports are not electrically insulated from each other.
The following conditions are met in accordance with IEEE 802.3af:

 Endpoint PSE
 Alternative A

30

Installation RS20/22/30/32/40

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1.2.2 PoE power units

RPS90/48V HV

RPS90/48V LV

The following PoE power units are available for supplying the devices with
PoE voltage:

 RPS90/48V LV: Low-voltage PoE power unit

 Input voltage range: 24 V DC to 48 V DC

 Power output at up to +60 °C: 90 W

Power output at +60 °C to +70 °C: 60 W

 RPS90/48V HV: High-voltage PoE power unit

 Input voltage range:

60 V DC to 250 V DC or 110 V AC to 230 V AC
You can choose between a DC or AC voltage connection.

 Power output at up to +60 °C: 90 W

Power output at +60 °C to +70 °C: 60 W

The output voltage can be set in the range from 48 V DC to 54 V DC.
The default setting for the output voltage is 48 V DC.

Installation RS20/22/30/32/40

Release 03 06/2013

31

2 Assembly and start-up

The devices have been developed for practical application in a harsh
industrial environment.
On delivery, the device is ready for operation.
Two or more devices configured with the same IP address can cause
unpredictable operation of your network.

WARNING

UNINTENTIONAL OPERATION IN DEVICE

Install and maintain a process that assigns a unique IP address to every
device in the network.

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

The following steps should be performed to install and configure a device:

 Unpacking and checking
 Installing the SFP transceivers (optional)
 Insert data in label area
 Adjust DIP switch settings
 Connect PoE power unit (optional)
 Connect the terminal block for voltage supply and signal

contact and connect the supply voltage

 Install the device on the DIN rail, grounding
 Install the terminal block, start-up procedure
 Connecting the data lines

2.1 Installing the device

2.1.1 Unpacking and checking

 Check whether the contents of the package are complete “Scope of

delivery” on page 62.

 Check the individual parts for transport damage.

32

Installation RS20/22/30/32/40

Release 03 06/2013

2.1.2 Installing the SFP transceivers (optional)

 Before attaching an SFP or XFP transceiver, first remove the protective

cap of the SFP/XFP transceiver.
 Push the SFP/XFP transceiver with the lock closed into the socket until it

latches audibly in place.

Figure 13: F/O SFP transceiver

Note: Only use Hirschmann SFP transceivers. See “Accessories” on

page 63.

2.1.3 Insert data in label area

The information field for the IP address on the front of the device helps you
to structure your network installation clearly.

+24V(P2)

FAULT
RM

RS20

3

4

5

6

7

8

FAULT

+24V(P1) 0V 0V

Sta nd by

Sta nd by

USB

IP-ADDRESS

P

RM

ON

V.2 4

Aufkleber MAC-Adresse

LS DA

1

1

LS DA

2

2

Figure 14: Label area for IP address of device

1 – IP address of device (label area)
2 – MAC address of device (label)

Installation RS20/22/30/32/40

Release 03 06/2013

33

2.1.4 Adjust DIP switch settings

RM

Stand by

ON

The 2-pin DIP switch on the front panel of the device gives you the following
options:

Figure 15: 2-pin DIP switch

Switch
RM
position

OFF OFF on on off off 1 + 2
ON OFF on on on off 1 + 2
OFF ON on on off on 1 + 2 3 4
ON ON SW config. has

Switch
stand-by
position

Ring
redun­dancy

Coup­ling
switch

Ring
Manag
er

Coupli
ng
Manag
er

Ring
port

Control
port

Coup
ling
port

Software
configuration

priority over
DIP switch
configuration

Delivery state: both DIP switches “ON”.
 Before starting operation of the device, check whether the default settings

of the DIP switch correspond to your requirements.

2.1.5 RS20/RS30/RS40: supply voltage and signal contact

The supply voltage and the signal contact are connected via a 6-pin terminal
block with a snap lock.

Caution!

Note the safety instructions “Safety instructions” on page 4 and only
connect a supply voltage that corresponds to the type plate of your
device. Make sure that the contact load capability of the signal

contact is not exceeded “Technical data” on page 56.

 Supply voltage for RS20/RS30/RS40

Redundant power supplies can be used. Both inputs are uncoupled.
There is no distributed load. With redundant supply, the power supply unit
supplies the device only with the higher output voltage. The supply
voltage is electrically isolated from the housing.
See “Insulation voltage” in section “Technical data” on page 56.

You can choose between DC or AC voltage when connecting the supply
voltage. You use the +24V and 0V pins to connect the AC voltage (see

figure 16).

Installation RS20/22/30/32/40

34

Release 03 06/2013

Figure 16: Connecting the supply voltage at the 6-pin terminal block

FAULT

G G

+24V(P1) 0V 0V +24V(P2)

FAULT

+24V(P1) 0V 0V +24V(P2)

+-

-+

1 1 2 2

1 – DC voltage, voltage range: 9.6 V DC to 60 V DC
2 – AC voltage, voltage range: 18 V AC to 30 V AC

Note: With non-redundant supply of the mains voltage, the device reports
a power failure. You can avoid this message by changing the
configuration in the management, or, with power supply units of the same
type, by feeding the supply voltage in via both inputs.

 Signal contact for RS20/RS30/RS40

 The signal contact (“FAULT”, for pin assignment of terminal block, see

figure 16) monitors the functioning of the device, thus enabling remote

diagnostics. You can specify the type of function monitoring in the
Management.

 You can also use the graphical user interface of the switch to switch

the signal contact manually and thus control external devices.

The potential-free signal contact (relay contact, closed circuit) reports
through a break in contact:

 The detected inoperability of at least one of the two voltage supplies

(voltage supply 1 or 2 is below the threshold value).

 The device is not operational.
 The failure of the connection on at least one port.

The report of the link status can be masked by the Management for
each port. In the delivery state, is deactivated.

 Failure of the ring redundancy reserve.
 Errors detected during the self-diagnostic test.
 Incorrect configuration of the HIPER-Ring or ring coupling.

Installation RS20/22/30/32/40

Release 03 06/2013

35

The following condition is also reported in RM mode:

2

1

 Ring redundancy reserve is available. On delivery, there is no ring

redundancy monitoring.

 Pull the terminal block off the device and connect the power supply

and signal lines.

2.1.6 RS22/RS32: supply voltage and signal contact

For the RS22/RS32, the PoE supply voltage and the signal contact are
connected via the 6-pin terminal block with a snap lock.

The RS22/RS32 devices are supplied with PoE voltage (48 V DC safety low
voltage) via an external power supply unit.

 Make sure that the external power supply unit you use to provide the PoE

voltage fulfills the following basic prerequisites:

 Insulation requirements according to IEEE 802.3af (insulation

resistance 48 V, output to “rest of the world” 2,250 V DC for 1 min.).

 Output power < 100 W
 Current limitation < 5 A
 The power supply unit and the devices with PoE ports form a “limited

power source” according to IEC 60950-1.

 The external PoE power supply unit must be able to provide the power

for the connected PDs (Power Devices) and for the Switch.

Note: The RS22/RS32 devices fulfill the technical data and the
certifications when using the RPS90/48V LV and RPS90/48V HV power units
from Hirschmann. Only use these power units, to ensure that the
specifications are fulfilled.

 RPS90/48V LV: connecting the input voltage

With the RPS90/48V LV low-voltage PoE power unit, you connect a DC
supply voltage of 24 V DC to 48 V DC at the input connection.

The supply voltage is connected via pin 1 and pin 2.

Figure Pin Assignment Voltage range

1 Minus terminal of the supply voltage Low voltage input voltage: 24
2 Plus terminal of the supply voltage

Table 7: Connecting the low-voltage supply voltage at PoE power unit RPS90/48V

LV

V DC to 48 V DC

Installation RS20/22/30/32/40

36

Release 03 06/2013

 First connect the protective conductor to the protective conductor

1
2
3

terminal.

 Connect the DC voltage to the 2-pin terminal block.
 Use a supply cable with a maximum length of 2 meters to the power

unit.

 RPS90/48V HV: connecting the input voltage

With the RPS90/48V HV high-voltage PoE power unit, you connect either
a DC or AC supply voltage at the input connection:

 60 V DC to 250 V DC
 110 V AC to 230 V AC

The supply voltage is connected via pin 2 and pin 3, and the protective
conductor is connected via pin 1.

Figure Pin Assignment Voltage range

1
2
3

1 Protective conductor High voltage input voltage:
2 Minus terminal of the supply voltage

G

3 Plus terminal of the supply voltage

110 V AC to 230 V AC

Table 8: Connecting the high-voltage supply voltage at PoE power unit

RPS90/48V HV (AC voltage)

Figure Pin Assignment Voltage range

1 Protective conductor High-voltage input voltage: 60
2 Minus terminal of the supply voltage
3 Plus terminal of the supply voltage

= external fuse for supply voltages > 125 V DC

V DC to 250 V DC

Table 9: Connecting the high-voltage supply voltage at PoE power unit

RPS90/48V HV (DC voltage)

 First connect the protective conductor to the protective conductor

terminal.

 Connect the supply voltage via the 3-pin terminal block. Pay attention

to the +/L and -/N connections.

 If the neutral conductor or the minus terminal of the supply voltage is

not grounded, install a suitable fuse in the input line.

 For supply voltages > 125 V DC:

Install a suitable external fuse in the supply voltage input line of the
plus terminal.

 Use a supply cable with a maximum length of 2 meters to the power

unit.

Installation RS20/22/30/32/40

Release 03 06/2013

37

 RS22/RS32 supply voltage

1

2
3
4

FAULT

+48V(P1) 0V 0V +48V(P2)

+-

-+

The RPS90/48V LV and RPS90/48V HV PoE power supply units provide
an output voltage of typically 48 V DC for supplying the RS22-.../RS32-...
devices with the PoE voltage.

Caution!

Note the “Safety instructions” on page 4 and only connect a
supply voltage that corresponds to the type plate of your device.
Make sure that the contact load capability of the signal contact

is not exceeded “Technical data” on page 56.

Figure Pin Assignment Voltage range

1+2 Minus terminal of the output voltage Output voltage (PoE voltage)
3+4 Plus terminal of the output voltage

Table 10: Output voltage of RPS90/48V LV and RPS90/48V HV PoE power units

range:
48 V DC to 54 V DC
(default: 48 V DC)

 Connect the PoE voltage to the 6-pin terminal block for the device

included in the delivery.
Make sure the following requirements are met:

 Supply line length < 0.5 m.

Figure 17: Connecting the PoE supply voltage at the 6-pin terminal block of device

RS22/RS32

 RS22/RS32 signal contact

 The signal contact (“FAULT”, for pin assignment of terminal block, see

figure 16) monitors the functioning of the device, thus enabling remote

diagnostics. You can specify the type of function monitoring in the
Management.

 You can also use the graphical user interface of the switch to switch

the signal contact manually and thus control external devices.

38

Installation RS20/22/30/32/40

Release 03 06/2013

The potential-free signal contact (relay contact, closed circuit) reports
through a break in contact:

 The detected inoperability of at least one of the two voltage supplies

(voltage supply 1 or 2 is below the threshold value).

 The device is not operational.
 The failure of the connection on at least one port.

The report of the link status can be masked by the Management for
each port. In the delivery state, is deactivated.

 Failure of the ring redundancy reserve.
 Errors detected during the self-diagnostic test.
 Incorrect configuration of the HIPER-Ring or ring coupling.

The following condition is also reported in RM mode:

 Ring redundancy reserve is available. On delivery, there is no ring

redundancy monitoring.

 Pull the terminal block off the device and connect the power supply

and signal lines.

Installation RS20/22/30/32/40

Release 03 06/2013

39

2.1.7 Installing the device on the DIN rail, grounding

RS20/RS30/RS40

RS22/RS32

 Mounting on the DIN rail

The devices are mounted very quickly by snapping them onto the DIN rail.



Mount the device on a 35 mm DIN rail in accordance with
DIN EN 60175.

 Attach the upper snap-in guide of the device into the DIN rail and press

the device down against the DIN rail until it snaps into place.

Figure 18: Mounting on the DIN rail

Note: The shield ground wire of the twisted pair lines is connected to the
front panel as a conductor.

40

Installation RS20/22/30/32/40

Release 03 06/2013

 DIN rail mounting on ships (RS30-0802...)

21

When you are mounting your RS30-0802... Open Rail device on a DIN rail
on ships and in similar applications, the Open Rail Mounting Kit available
as an accessory can be used to avoid excessive resonance.

 You must use the Open Rail Mounting Kit with the order number

942 007-001 “Accessories” on page 63 when mounting your RS30-

0802... device on ships.
If you have very little space on your DIN rail, you can alternatively use
Open Rail Mounting Kit 942 007-101 (for mounting DIN rail on DIN
rail).

 Mount one mounting kit on each side of your RS30-0802... device, but

at least one mounting kit on one side of the RS30-0802... device. If
possible, position one side of the RS30-0802... device on a wall, or in
a similarly stable way. If you are positioning multiple RS30-0802...
devices side by side, mount the row of devices in the way described
for a single device.

 Mount a standard DIN rail stopper on both sides beside the mounting

kit.

For more information on mounting the RS30-0802... on a DIN rail on
ships, see the “Open Rail Mounting Kit Mounting Instructions” manual
supplied with the Open Rail Mounting Kit.

Figure 19: Mounting the RS30-0802... on ships with the Open Rail Mounting Kit

1 - Open Rail Mounting Kit 942 007-001
2 - Open Rail Mounting Kit 942 007-101

Installation RS20/22/30/32/40

Release 03 06/2013

41

 Mounting on the wall (RS22/RS32)

In addition to the option of mounting them on a DIN rail, you can also
mount the RS22/RS32 devices on the wall using the wall mounting plate
supplied “Accessories” on page 63.

Figure 20: Mounting the RS22/RS32 devices on the wall

 Mount the device on the wall plate as shown in the illustration. Insert

the upper snap-in guide of the device into the rail and press it down
against the rail until it snaps into place.

 Fasten the wall plate (see on page 63 “Accessories”) on a level wall

surface using four screws.

42

Installation RS20/22/30/32/40

Release 03 06/2013

 Grounding

46

129,08

105,3

3,5

13,73

With the RS20/RS30/RS40, the front panel of the device is grounded via
the separate ground screw.
With the RS22/RS32, the front panel and the metal housing of the device
is grounded via the separate ground screw.

 For the ground conductor, use a cable with a cross section of at least

1.0 mm².

2.1.8 Dimension drawings

 Dimension drawings for RS20/RS30/RS40

Figure 21: Dimensions of device variants RS20-04... with 4 ports

Installation RS20/22/30/32/40

Release 03 06/2013

43

Figure 22: Dimensions of device variants RS20.../RS30.../RS40... with 8 to max. 10

130

105,3 13,73

3,5

72

ports

Figure 23: Dimensions of device variants RS20.../RS30.../RS40... with 16 to max. 26

ports

44

Installation RS20/22/30/32/40

Release 03 06/2013

 Dimension drawings for RS22/RS32

90

115

11,56

9,03

137

120

115

11,56

9,03

137

Figure 24: Dimensions of device variants RS22.../RS32... with 8 to max. 10 ports

Figure 25: Dimensions of device variants RS22.../RS32... with 16 to max. 26 ports

Installation RS20/22/30/32/40

Release 03 06/2013

45

 Dimension drawings for PoE power units

60

115

7,05

8,93

137

Figure 26: Dimensions of RPS90/48V LV and RPS90/48V HV PoE power units

2.1.9 Connecting the ferrite

Note: For PoE devices with 16 or more ports
(RS22-16..., RS22-17..., RS22-24... and RS22-25...):

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

 Insert both cables of the 48V output through the ferrite twice.
 Lock the ferrite.
 Position the ferrite as close as possible to the voltage output (max.

distance 50 cm).

To open the ferrite use the key supplied.

46

Installation RS20/22/30/32/40

Release 03 06/2013

Figure 27: Connecting the ferrite to the voltage supply line

2.1.10 Installing the terminal block, start-up procedure

WARNING

ELECTRIC SHOCK

Ground the device before connecting the power supply.

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

 Mount the terminal block for the voltage supply and signal contact on the

front of the device by snapping the lock into place.

Connecting the voltage supply via the terminal block starts the operation of
the device.

2.1.11 Connecting the data lines

You can connect terminal devices and other segments on the ports of the
device via twisted pair cables or F/O cables.

 Install the data lines according to your requirements.

 10/100 Mbit/s twisted pair connection

These connections are RJ45 sockets.
10/100 Mbit/s TP ports enable the connection of terminal devices or
independent network segments according to the IEEE 802.3 10BASE­T/100BASE-TX standard.

Installation RS20/22/30/32/40

Release 03 06/2013

47

These ports support:

1
2
3
4
5
6
7
8

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

Delivery state: autonegotiation activated
The socket housing is electrically connected to the front panel.

Figure Pin Operation

1+2 One line pair: receiver path
3+6 One line pair: sender path
4,5,7,8 —

Table 11: Pin assignment of a TP/TX interface in MDI-X mode, RJ45 socket

 10/100 Mbit/s twisted-pair connection PoE

(RS22-.../RS32-...)

These connections are RJ45 sockets.
10/100 Mbit/s TP PoE ports enable the connection of terminal devices or
independent network segments according to the IEEE 802.3 10BASE­T/100BASE-TX and IEEE 802.3af (Power over Ethernet) standards.

These ports support:

 Autonegotiation
 Autopolarity
 Autocrossing (if autonegotiation is activated)
 100 Mbit/s half-duplex mode, 100 Mbit/s full duplex mode
 10 Mbit/s half-duplex mode, 10 Mbit/s full duplex mode
 Power over Ethernet (PoE, at the last four ports of the device)

Delivery state: autonegotiation activated
The socket housing is electrically connected to the front panel.
The PoE voltage is supplied via the wire pairs transmitting the signal
(phantom voltage).

48

Installation RS20/22/30/32/40

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Figure Pin Function PoE

8
7
6
5
4
3
2
1

1
2
3
4
5
6
7
8

1 RD+ Receive Data + V­2 RD- Receive Data - V­3 TD+ Transmit Data + V+
6 TD- Transmit Data - V+
4,5,7,8 Not used

Table 12: Pin assignment of a TP/TX interface for PoE for the voltage supply to the

wire pairs transmitting the signal, RJ45 socket, MDI-X mode

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

These connections are RJ45 sockets.

10/100/1000 Mbit/s TP ports enable the connection of terminal devices or
independent network segments according to the IEEE 802.3 10BASE­T/100BASE-TX/1000BASE-T standard.

These ports support:

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

Delivery state: autonegotiation activated
The socket housing is electrically connected to the front panel.
The pin assignment corresponds to MDI-X.

Pin Operation

1 BI_DB +
2 BI_DB ­3 BI_DA +
4 BI_DD +
5 BI_DD ­6 BI_DA ­7 BI_DC +
8 BI_DC -

Table 13: Pin assignment in MDI-X mode

 100 Mbit/s F/O connection

In device variants RS20 and RS22, these ports are DSC connectors or ST
connectors.
In device variants RS30, RS32 and RS40, these ports are SFP slots.

Installation RS20/22/30/32/40

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49

100 MBit/s F/O ports enable the connection of terminal devices or
independent network segments in compliance with the IEEE 802.3
100BASE-FX standard.
These ports support:

 Full or half duplex mode

Default setting: Full duplex

Note: Make sure that the LH ports are only connected with LH ports, SM
ports are only connected with SM ports, and MM ports only with MM ports.

 1 Gbit/s F/O connection

These ports are SFP slots.
1000 Mbit/s F/O ports enable the connection of terminal devices or
independent network segments according to the IEEE 802.3 1000BASE­SX/1000BASE-LX standard.
These ports support:

 Autonegotiation

Note: Make sure that the LH ports are only connected with LH ports, SX
ports are only connected with SX ports, and LX ports only with LX ports.

Note: In device variants RS30-...02OOZZ... and RS32-...02OOZZ... (four
uplink ports with SFP slot), Gigabit-ETHERNET-SFP transceivers or
Fast-ETHERNET-SFP transceivers can be mounted at the two top ports,
and Fast-ETHERNET-SFP transceivers can be mounted at the two
bottom ports “Accessories” on page 63.
In device variants RS40-..., Gigabit-ETHERNET-SFP transceivers or
Fast-ETHERNET-SFP transceivers can be mounted at the combo ports

“Accessories” on page 63.

2.2 Display elements

After the operating voltage is set up, the software starts and initializes itself.
Afterwards, the device performs a self-test. During this process, various
LEDs light up. The process takes around 60 seconds.

 Device state

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

50

Installation RS20/22/30/32/40

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P

T

Stand by

FAUL
RM

Figure 28: Device status LEDs

P - Power (green/yellow LED)

Glowing green Both supply voltages are on
Glowing yellow There is only one supply voltage (P1 or P2) on
Not glowing Supply voltages P1 and P2 are too low

FAULT - detected error, signal contact (red LED)

Glowing red The signal contact is open, i.e. it is reporting a detected error.
Not glowing The signal contact is closed, i. e. it is not reporting

a detected error.

a. If the manual adjustment is active on the “FAULT” signal contact, then the detected error

display is independent of the setting of the signal contact.

RM - Ring Manager (green/yellow LED)

Glowing green RM function active, redundant port disabled
Glowing yellow RM function active, redundant port enabled
Not glowing RM function not active
Flashing green Incorrect configuration of the HIPER-Ring (e.g. the ring is not

connected to the ring port).

Stand-by

Glowing green Stand-by mode enabled
Not glowing Stand-by mode not enabled

RM and Stand-by - display saving processes of the AutoConfiguration Adapter (ACA)

Flashing alternately Error during saving process.
LEDs flash synchronously, two

Loading configuration from the ACA.

times a second
LEDs flash synchronously,

Saving the configuration in the ACA.

once a second

a

 Port state

The green and yellow LEDs at the individual port display port-related
information. During the boot phase, these LEDs are used to display the
status of the boot procedure.

LS

1

DA

Figure 29: Port status LEDs

Installation RS20/22/30/32/40

Release 03 06/2013

DA

1

LS

1132

LS DA

1 – Port status LEDs for isolated or single-row RJ45 sockets: one green
and one yellow LED per port.
2 – Port status LEDs for double-row RJ45 sockets: one LED per port,
glowing/flashing either green or yellow.
3 – Port status LEDs for DSC, ST, SFP

51

LS - link status (green LED)

Not glowing No valid connection.
Glowing green Valid connection.
Flashing green (1 time a period) Port is switched to stand-by.
Flashing green (3 times a

period)

DA - data (yellow LED)

Not glowing No data reception at corresponding port
Flashing yellow Data reception at corresponding port

Port is switched off.

2.3 Basic set-up

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:

 Configuration via V.24 connection
 Configuration using the HiDiscovery protocol
 Configuration via BOOTP
 Configuration via DHCP
 Configuration via DHCP (Option 82)
 Configuration using AutoConfiguration Adapter

Further information on the basic settings of the device can be found in the
“Basic Configuration” user manual on the CD/DVD.

 Default settings

 IP address: The device looks for the IP address using DHCP
 Password for management:

Login: user; password: public (read only)
Login: admin; password: private (read and write)

 V.24 data rate: 9,600 Baud
 Ring redundancy: disabled
 Ethernet ports: link status is not evaluated (signal contact)
 Optical 100 Mbit/s ports: 100 Mbit/s, full duplex

All other ports: autonegotiation

 Ring Manager disabled (DIP switch RM and stand-by: ON)
 Stand-by coupling disabled (DIP switch RM and stand-by: ON)

Port 4 = control port, port 3 = coupling port for red. Ring coupling

 Rapid Spanning Tree enabled

 USB interface

The USB socket is an interface for the local connection of an
AutoConfiguration Adapter ACA21-USB. It is used for saving/loading the
configuration data and diagnostic information, and for loading the
software.

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Installation RS20/22/30/32/40

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Figure Pin Operation

3

4

1

2

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

Table 14: Pin assignment of the USB interface

 V.24 interface (external management)

The V.24 interface is an RJ11 socket.
At the V.24 connection, a serial interface is provided for the local
connection of an external management station (VT100 terminal or PC
with corresponding terminal emulation) or an AutoConfiguration Adapter
ACA 11. This enables you to set up a connection to the Command Line
Interface (CLI) and to the system monitor.

VT 100 terminal settings

Speed 9,600 Baud
Data 8 bit
Stopbit 1 bit
Handshake off
Parity none

The socket housing is electrically connected to the front panel of the
device.
The V.24 interface is not electrically isolated from the supply voltage.

RJ11

6

1

DB9

5
8

1

Figure 30: Pin assignment of the V.24 interface and the DB9 connector

RJ11

CTS
n.c.
TX
GND
RX
RTS

DB9

1
2
3
4
5
6

2
3

5

Note: You will find the order number for the terminal cable, which is
ordered separately, in the Technical Data section. “Technical data” on

page 56.

You will find a description of the V.24 interface in the “Basic Configuration
User Manual” on the CD-ROM.

Installation RS20/22/30/32/40

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53

2.4 Maintenance

 When designing this device, Hirschmann was largely able to forego using

parts that are subject to wear and tear. The parts subject to wear are
designed to last longer than the lifetime of the product when it is operated
properly. Operate this device according to the specifications (see

“Technical data”).

 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 to improve and develop our software.

You should regularly check whether there is a new version of the software
that provides you with additional benefits. You will find software
information and downloads on the product pages of the Hirschmann
website.

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

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

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

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

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Installation RS20/22/30/32/40

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2.5 Disassembly

RS20/RS30/RS40

RS22/RS32

 Removing the device from the DIN rail

 To take the device off the DIN rail, insert a screwdriver horizontally

under the housing into the locking slide, pull it (without tipping the
screwdriver) downwards and lift the device upwards.

 Removing the device from the wall mounting plate

 To remove the device from the rail of the wall plate, press the device

downwards and pull it from the rail below.

 Removing the SFP transceivers

 Pull the module out of the socket by means of the opened lock.
 Close the module with the protective cap.

Installation RS20/22/30/32/40

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55

3 Technical data

 General technical data

Dimensions
W x H x D

Weight RS20-0400...

Power supply Operating voltage

RS20-0400...
RS20-08..., RS20-09..., RS30-0802
RS20-16..., RS20-17..., RS30-1602
RS20-24..., RS20-25..., RS30-2402
RS40-0009CCCCS...
RS40-0009CCCCE...,
RS40-0009CCCCT...

RS22-08..., RS22-09..., RS32-0802
RS22-16..., RS22-17..., RS32-1602
RS22-24..., RS22-25..., RS32-2402

RPS 90/48V LV PoE power unit
RPS 90/48V HV PoE power unit

RS20-08..., RS20-09..., RS30-0802
RS20-16..., RS20-17..., RS30-1602
RS20-24..., RS20-25..., RS30-2402
RS40-0009CCCCS...
RS40-0009CCCCE...,
RS40-0009CCCCT...

RS22-08..., RS22-09..., RS32-0802
RS22-16..., RS22-17..., RS32-1602
RS22-24..., RS22-25..., RS32-2402

RPS 90/48V LV PoE power unit
RPS 90/48V HV PoE power unit

RS20-..., RS30-..., RS40-...
Rated voltage range DC
Max. voltage range DC
Rated voltage range AC
Max. voltage range AC

Operating voltage
RS22-..., RS32-...

47 mm × 131 mm × 111 mm
74 mm × 131 mm × 111 mm
110 mm × 131 mm × 111 mm
110 mm × 131 mm × 111 mm
74 mm × 131 mm × 111 mm
110 mm × 131 mm × 111 mm

90 mm × 137 mm × 115 mm
120 mm × 137 mm × 115 mm
120 mm × 137 mm × 115 mm

60 mm × 137 mm × 115 mm
60 mm × 137 mm × 115 mm

400 g
410 g
600 g
650 g
530 g
600 g

820 g
1150 g
1200 g

770 g
740 g

12 to 48 V DC
min. 9.6 to max. 60 V DC
24 V AC
min. 18 to max. 30 V AC
Safety extra-low voltage (SELV),
redundant inputs disconnected.
Relevant for North America: NEC
Class 2 power source max. 5A.

48 V (47 V DC to 52 V DC)
Safety extra-low voltage (SELV),
redundant inputs disconnected.
Relevant for North America: NEC
Class 2 power source max. 5A.

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PoE power unit
RPS90/48V HV

PoE power unit
RPS90/48V LV

Overload current
protection at input

Insulation voltage
between operating
voltage connections
and housing

“FAULT”
signal contact

Environment Storage temperature

Nominal voltage AC 110 V ... 230 V, 50 Hz ... 60 Hz
Voltage range AC 90 - 265 V, 47 - 63 Hz (incl. max.

Power consumption at 110 V AC
Power consumption at 230 V AC

Nominal voltage DC 60 - 250 V
Voltage range DC 48 - 320 V (incl. max. tolerances)
Current consumption at 60 V DC

Current consumption at 250 V DC
Connection type 3-pin terminal block
Output voltage 48 - 54 V DC (variable, default value:

Power output At up to +60 °C: 90 W

Power failure bypass > 10 ms
Nominal voltage DC 24 V ... 48 V
Voltage range DC 18 - 60 V (incl. max. tolerances)
Current consumption at 24 V DC

Current consumption at 48 V DC
Connection type 2-pin terminal block
Output voltage 48 - 54 V DC (variable, default value:

Power output At up to +60 °C: 90 W

Power failure bypass > 10 ms

Switching current max. 1 A, SELV
Switching voltage max. 60 V DC or max. 30 V AC,

(ambient air)

Humidity 10% ... 95%

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

tolerances)

1.00 A

0.50 A

1.70 A

0.39 A

48 V DC)

At +60 °C to +70 °C: 60 W

4.20 A

2.10 A

48 V DC)

At +60 °C to +70 °C: 60 W

Non-replaceable fuse

800 V DC
Protective elements limit the
insulation voltage to 90 V DC (1 mA)

SELV
Standard: -40 °C to +70 °C

(-40 °F to +158 °F)
Extended: -40 °C to +85 °C

(non-condensing)

altitudes on request

Installation RS20/22/30/32/40

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57

Operating
temperature

a

RS20/RS30/RS40 Standard: 0 °C to +60 °C

Extended: -40 °C to +70 °C

RS22-..., RS32-... Standard: 0 °C to +60 °C

Extended: -40 °C to +60 °C

RS40-...B... (ATEX)
Standard (S)

RS40-...B... (ATEX)
Extended (E and T)

Temperature Code T4:
+32 °F ... +140 °F (0 °C ... +60 °C)

Temperature Code T3:

−40 °F ... +158 °F (−40 °C ...

b)

c)

+70 °C)
Temperature Code T4:

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

RPS90/48V HV −40 °F ... +158 °F (−40 °C ...

+70 °C)
Cold start at temperatures > −30 °C

RPS90/48V LV −40 °F ... +158 °F (−40 °C ...

+70 °C)
Cold start at temperatures > −30 °C

at an input voltage ≥ 21.6 V DC
Pollution degree 2
Protection classes Laser protection Class 1 in compliance with IEC

60825-1

Degree of protection IP 20

a. Exclusively use SFP modules with the “EEC” extension at temperatures > 60 °C and < 0 °C.
b. With a UL-508, ATEX or ISA 12.12.01 certification, the maximum operating temperature for

the standard ‘S’ temperature range for PoE-capable devices (RS22-..., RS32-...) is +50 °C.

c. With a UL-508, ATEX or ISA 12.12.01 certification, the maximum operating temperature for

the extended ‘E’ and ‘T’ temperature range for PoE-capable devices (RS22-..., RS32-...) is
+50 °C.

 EMC and immunity

EMC compliance – IEC/EN 61000-6-2:2005 EMI TYPE tests,

A

a)

test acc. to:

IEC/EN 61000-4-2 Electrostatic discharge

Contact discharge
Air discharge

4 kV
8 kV

IEC/EN 61000-4-3 Electromagnetic field

80 MHz ... 3000 MHz 10 V/m 20 V/m 20 V/m

IEC/EN 61000-4-4 Fast transients (burst)

Power line
Data line

2 kV
1 kV

IEC/EN 61000-4-5 Voltage surges

Power line, line / line
Power line, line / ground
Data line

0.5 kV
1 kV
1 kV

IEC/EN 61000-4-6 Conducted disturbances

10 kHz - 150 kHz
150 kHz ... 80 MHz

3 V
10 V

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

a)

B

8 kV
15 kV

4 kV
4 kV

1 kV
2 kV
4 kV

3 V
10 V

a)

H

8 kV
15 kV

4 kV
4 kV

1 kV
2 kV
4 kV

3 V
10 V

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EMC interference emission A

a)

B

a)

H

a)

EN 55022 Class A Yes Yes Yes
FCC 47 CFR Part 15Class A Yes Yes Yes

German Lloyd Classification + Construction Guidelines VI-

—YesYes

7-3 Part 1 Ed.2001

Stability A

Vibration IEC 60068-2-6 Test FC test level according

Yes Yes Yes

a

B

a)

to IEC 61131-2
Germanischer Lloyd Guidelines for the

—YesYes

Performance of Type Tests Part 1
IEC 870-2-2 table 3 normal installation

—YesYes

according to EN 61850-3

Shock IEC 60068-2-27 Test Ea test level according

Yes Yes Yes

to IEC 61131-2
IEC 870-2-2 table 3 normal installation

—YesYes

according to EN 61850-3

a. Product code A: Certification = CE, UL

Product code B: Certification = CE, UL, GL, railway (along track), sub station, ATEX
Product code H: Certification = CE, UL, GL, railway (along track), sub station
(See “Combination options for RS20/30” on page 17.See “Combination options for RS40”

on page 20.)

 Network range

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

H

a)

Product
code
M-SFP-...

Wave
length

Fiber System

attenuatio
n

Example
for F/O line
length

a

Fiber
attenuatio
n

BLPb/
dispersion

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

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

-MX/LC MM 1310 nm 50/125 µm 0-8 dB 2 km

c

1.0 dB/km 500 MHz×km

-MX/LC MM 1310 nm 62.5/125 µm 0-8 dB 1 km 1.0 dB/km 500 MHz×km

d

-LX/LC... MM 1310 nm

-LX/LC... MM 1310 nm

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

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

d

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

e

0.4 dB/km 3.5
ps/(nm×km)

-LX+/LC... SM 1310 nm 9/125 µm 5-20 dB 14-42 km 0.4 dB/km 3.5
ps/(nm×km)

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

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

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

19 ps/(nm×km)

(typically)

Table 15: Fiber port 1000BASE-FX (SFP fiber optic Gigabit Ethernet Transceiver)

a. including 3 dB system reserve when compliance with the fiber data is observed
b. The bandwidth length product cannot be used to calculate the expansion.
c. Distances of up to 3 km reachable, 1000 MHz*km (1300 nm)
d. With F/O adapter compliant with IEEE 802.3-2002 clause 38 (single-mode fiber offset-

launch mode conditioning patch cord)

Installation RS20/22/30/32/40

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59

e. including 2.5 dB system reserve when compliance with the fiber data is observed

Product
code
M-SFP­BIDI...

Type A

Wave
length
TX

Wave
length
RX

Fiber System

attenuat
ion

Example
for F/O
line
length

a

Fiber
attenuati
on

Dispersion

SM 1310 nm 1550 nm 9/125 µm 0-11 dB 0-20 km 0.4 dB/km 3.5 ps/(nm×km)
LX/LC
EEC

Type B
LX/LC

SM 1550 nm 1310 nm 9/125 µm 0-11 dB 0-20 km 0.25

dB/km

19 ps/(nm×km)

EEC
Type A

LH/LC

LH 1490 nm 1590 nm 9/125 µm 5-24 dB 23-80 km 0.25

dB/km

19 ps/(nm×km)

EEC
Type B

LH/LC

LH 1590 nm 1490 nm 9/125 µm 5-24 dB 23-80 km 0.25

dB/km

19 ps/(nm×km)

EEC

Table 16: F/O port (bidirectional Gigabit Ethernet SFP Transceiver)

a. including 3 dB system reserve when compliance with the fiber data is observed

Product
code
M-FAST­SFP-...

-MM/LC... MM 1310 nm 50/125 µm 0-8 dB 0-5 km 1.0 dB/km 800 MHz×km

-MM/LC... MM 1310 nm 62.5/125 µm 0-11 dB 0-4 km 1.0 dB/km 500 MHz×km

-SM/LC... SM 1310 nm 9/125 µm 0-13 dB 0-25 km 0.4 dB/km 3.5 ps/(nm×km)

­SM+/LC...

-LH/LC... SM 1550 nm 9/125 µm 10-29 dB 47-104 km 0.25 dB/km 19 ps/(nm×km)

-LH/LC... SM 1550 nm 9/125 µm 10-29 dB 55-140 km 0.18 dB/km

Wave
length

Fiber System

attenuatio
n

Example
for F/O line
length

a

Fiber
attenuation

BLP/
dispersion

SM 1310 nm 9/125 µm 10-29 dB 25-65 km 0.4 dB/km 3.5 ps/(nm×km)

b

18 ps/(nm×km)

Table 17: Fiber port 100BASE-FX (SFP fiber optic Fast Ethernet Transceiver)

a. including 3 dB system reserve when compliance with the fiber data is observed
b. with ultra-low-loss optical fiber

Product
code

Wave
length

Fiber System

attenuati
on

Example
for F/O line
length

a

Fiber
attenuation

BLP/
dispersion

-M2, -MM MM 1300 nm 50/125 µm 0-8 dB 0-5 km 1.0 dB/km 800 MHz×km

-M2, -MM MM 1300 nm 62.5/125 µm 0-11 dB 0-4 km 1.0 dB/km 500 MHz×km

-S2, -VV SM 1300 nm 9/125 µm 0-16 dB 0-30 km 0.4 dB/km; 3.5 ps/(nm×km)

-E2, EE SM+1300 nm 9/125 µm 7-29 dB 20-65 km 0.4 dB/km; 3.5 ps/(nm×km)

-L2, -LL LH 1550 nm 9/125 µm 7-29 dB 24-86 km 0.3 dB/km; 19 ps/(nm×km)

-G2, -GG LH+ 1550 nm 9/125 µm 14-47 dB 67-176 km 0.25 dB/km; 19 ps/(nm×km)

Table 18: F/O port 100BASE-FX

a. including 3 dB system reserve when compliance with the fiber data is observed

Installation RS20/22/30/32/40

60

Release 03 06/2013

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

TP port

Length of a twisted pair segment max. 100 m/328 ft (for cat5e cable)

Table 19: TP port 10BASE-T / 100BASE-TX / 1000BASE-T

 Power consumption/power output

Device name Device model Maximum

power
consumption

2 uplink ports:

RS20-0400... 2xTX port 5.3 W 18.1 Btu (IT)/h
RS20-0400... 1xFX port, 1xTX port 6.5 W 22.2 Btu (IT)/h
RS20-0400... 2xFX port 7.7 W 26.3 Btu (IT)/h
RS20-0800... RS22-0800... 2xTX port 5.3 W 18.1 Btu (IT)/h
RS20-0800... RS22-0800... 1xFX port, 1xTX port 6.5 W 22.2 Btu (IT)/h
RS20-0800... RS22-0800... 2xFX port 7.7 W 26.3 Btu (IT)/h
RS20-1600... RS22-1600... 2xTX port 9.4 W 32.1 Btu (IT)/h
RS20-1600... RS22-1600... 1xFX port, 1xTX port 10.6 W 36.2 Btu (IT)/h
RS20-1600... RS22-1600... 2xFX port 11.8 W 40.3 Btu (IT)/h
RS20-2400-... RS22-2400-... 2xTX port 12.1 W 41.3 Btu (IT)/h
RS20-2400-... RS22-2400-... 1xFX port, 1xTX port 13.3 W 45.4 Btu (IT)/h
RS20-2400-... RS22-2400-... 2xFX port 14.5 W 52.9 Btu (IT)/h
RS30-0802-... RS32-0802-... 2xTX port 8.9 W 30.4 Btu (IT)/h
RS30-0802-... RS32-0802-... 1xFX port, 1xTX port 8.6 W 29.4 Btu (IT)/h
RS30-0802-... RS32-0802-... 2xFX port 8.3 W 28.4 Btu (IT)/h
RS30-1602-... RS32-1602-... 2xTX port 13.0 W 44.4 Btu (IT)/h
RS30-1602-... RS32-1602-... 1xFX port, 1xTX port 12.7 W 43.4 Btu (IT)/h
RS30-1602-... RS32-1602-... 2xFX port 12.4 W 42.4 Btu (IT)/h
RS30-2402-... RS32-2402-... 2xTX port 15.7 W 53.6 Btu (IT)/h
RS30-2402-... RS32-2402-... 1xFX port, 1xTX port 15.4 W 52.6 Btu (IT)/h
RS30-2402-... RS32-2402-... 2xFX port 15.1 W 51.6 Btu (IT)/h

3 uplink ports:

RS20-0900-... RS22-0900-... 3xFX port 9.6 W 32.8 Btu (IT)/h
RS20-1700-... RS22-1700-... 3xFX port 13.7 W 46.7 Btu (IT)/h
RS20-2500-... RS22-2500-... 3xFX port 16.4 W 56.0 Btu (IT)/h

4 uplink ports:

RS30-0802-... RS32-0802-... 4xFX port 12.7 W 43.3 Btu (IT)/h
RS30-1602-... RS32-1602-... 4xFX port 16.8 W 57.3 Btu (IT)/h
RS30-2402-... RS32-2402-... 4xFX port 19.5 W 66.5 Btu (IT)/h
RS40-... 4xFX port 20.0 W 68.2 Btu (IT)/h

Power output

Table 20: Power consumption/power output RS20/RS30/RS40 and RS22/RS32

without PDs (powered devices)

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Device name Device model Maximum

power
consumption

2 uplink ports:

RS22-0800... 2xTX port 70.9 W 31.8 Btu (IT)/h
RS22-0800... 1xFX port, 1xTX port 72.1 W 35.9 Btu (IT)/h
RS22-0800... 2xFX port 73.3 W 40.0 Btu (IT)/h
RS22-1600... 2xTX port 75.0 W 45.8 Btu (IT)/h
RS22-1600... 1xFX port, 1xTX port 76.2 W 49.9 Btu (IT)/h
RS22-1600... 2xFX port 77.4 W 54.0 Btu (IT)/h
RS22-2400-... 2xTX port 77.7 W 55.0 Btu (IT)/h
RS22-2400-... 1xFX port, 1xTX port 78.9 W 59.1 Btu (IT)/h
RS22-2400-... 2xFX port 80.1 W 66.6 Btu (IT)/h
RS32-0802-... 2xTX port 74.5 W 44.1 Btu (IT)/h
RS32-0802-... 1xFX port, 1xTX port 74.2 W 43.1 Btu (IT)/h
RS32-0802-... 2xFX port 73.9 W 42.1 Btu (IT)/h
RS32-1602-... 2xTX port 78.6 W 58.1 Btu (IT)/h
RS32-1602-... 1xFX port, 1xTX port 78.3 W 57.1 Btu (IT)/h
RS32-1602-... 2xFX port 78.0 W 56.1 Btu (IT)/h
RS32-2402-... 2xTX port 81.3 W 67.3 Btu (IT)/h
RS32-2402-... 1xFX port, 1xTX port 81.0 W 66.3 Btu (IT)/h
RS32-2402-... 2xFX port 80.7 W 65.3 Btu (IT)/h

3 uplink ports:

RS22-0900-... 3xFX port 75.2 W 46.5 Btu (IT)/h
RS22-1700-... 3xFX port 79.3 W 60.4 Btu (IT)/h
RS22-2500-... 3xFX port 82.0 W 69.7 Btu (IT)/h

4 uplink ports:

RS32-0802-... 4xFX port 78.3 W 57.0 Btu (IT)/h
RS32-1602-... 4xFX port 82.4 W 71.0 Btu (IT)/h
RS32-2402-... 4xFX port 85.1 W 80.2 Btu (IT)/h

Power output

Table 21: Power consumption/power output RS22/RS32 with 4 x Class0 PD

(powered device)

 Scope of delivery

Device Scope of delivery

RS20-..., RS30-..., RS40-...,
RS22-... or RS32-...

RS22-16..., RS22-17...,
RS22-24..., RS22-25...

Device
Terminal block for supply voltage and signal contact
Installation user manual and CD-ROM
Additionally: ferrite with key

 Order numbers/product description

You will find order numbers and product designations for the RS20/30 and
RS40 in the Combination Options section.

See “Combination options for RS20/30” on page 17.See “Combination
options for RS40” on page 20.

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 Accessories

Gigabit Ethernet SFP transceiver Order number

M-SFP-TX/RJ45 943 977-001
M-SFP-SX / LC 943 014-001
M-SFP-SX/LC EEC 943 896-001
M-SFP-MX/LC 942 035-001
M-SFP-LX/LC 943 015-001
M-SFP-LX/LC EEC 943 897-001
M-SFP-LX+/LC 942 023-001
M-SFP-LX+/ LC EEC 942 024-001
M-SFP-LH/LC 943 042-001
M-SFP-LH/LC EEC 943 898-001
M-SFP-LH+/LC 943 049-001

Bidirectional Gigabit Ethernet SFP transceiver Order number

M-SFP-BIDI Type A LX/LC EEC 943 974-001
M-SFP-BIDI Type B LX/LC EEC 943 974-002
M-SFP-BIDI Type A LH/LC EEC 943 975-001
M-SFP-BIDI Type B LH/LC EEC 943 975-002
M-SFP-BIDI Bundle LX/LC EEC (type A + B) 943 974-101
M-SFP-BIDI Bundle LH/LC EEC (type A + B) 943 975-101

Fast-Ethernet SFP transceiver Order number

M-FAST SFP-MM/LC 943 865-001
M-FAST SFP-MM/LC EEC 943 945-001
M-FAST SFP-SM/LC 943 866-001
M-FAST SFP-SM/LC EEC 943 946-001
M-FAST SFP-SM+/LC 943 867-001
M-FAST SFP-SM+/LC EEC 943 947-001
M-FAST SFP-LH/LC 943 868-001
M-FAST SFP-LH/LC EEC 943 948-001

Special accessories for the device variants RS22/RS32 Order number

RSR wall mounting plate, width 120 mm 943 971-001
RSR wall mounting plate, width 90 mm 943 971-002
RSR wall mounting plate, width 60 mm 943 971-003
RPS 90/48V HV (high-voltage) PoE power unit 943 979-001
RPS 90/48V HV (high-voltage) PoE power unit with conformal coating 943 979-101
RPS 90/48V LV (low-voltage) PoE power unit 943 980-001
RPS 90/48V LV (low-voltage) PoE power unit with conformal coating 943 980-101

Other accessories Order number

AutoConfiguration Adapter ACA 11 943 751-001
AutoConfiguration Adapter ACA 21-USB EEC 943 271-002
Terminal cable 943 301-001
6-pin terminal block (50 pcs.) 943 845-006
Rail Power Supply RPS 30 943 662-003
Rail Power Supply RPS 80 EEC 943 662-080
Rail Power Supply RPS 120 EEC 943 662-120

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Other accessories Order number

Industrial HiVision Network Management Software 943 156-xxx
OPC server software HiOPC 943 055-001

 Underlying norms and standards

Name

UL 508 Safety for Industrial Control Equipment
EN 50121-4 Railway applications - EMC - emitted interference and interference

immunity for signal and telecommunication systems

EN 55022 Information technology equipment – Radio disturbance

characteristics – Limits and methods of measurement

EN 60079-15 Explosive atmospheres – Part 15: Equipment protection by type of

protection „n“

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

– Immunity for industrial environments

EN 61131-2 Programmable controllers – Part 2: Equipment requirements and

tests
FCC 47 CFR Part 15 Code of Federal Regulations
Germanischer Lloyd Rules for Classification and Construction VI-7-2 – GL
EN 60950-1 Information technology equipment – Safety – Part 1: General

requirements
IEC/EN 61850-3 Communication networks and systems in substations – Part 3:

General requirements
IEEE 802.1 D Switching, GARP, GMRP, Spanning Tree
IEEE 802.1 D Media access control (MAC) bridges (includes IEEE 802.1p

Priority and Dynamic Multicast Filtering, GARP, GMRP)
IEEE 802.1 Q Tagging
IEEE 802.1 Q Virtual Bridged Local Area Networks (VLAN Tagging, GVRP)
IEEE 802.1 w Rapid Reconfiguration
IEEE 802.3 Ethernet
IEEE 1613 IEEE Standard Environmental and Testing Requirements for

Communication Networking Devices in Electric Power Substations
ISA 12.12.01, CSA C22.2

No. 213

Korean Register of
Shipping

Nonincendive Electrical Equipment for Use in Class I and II,

Division 2 and Class III, Divisions 1 and 2 Hazardous (Classified)

Locations

Rules for the Classification of Steel Ships – KR

Table 22: List of norms and standards

The device has a certification based on a specific standard only if the
certification indicator appears on the housing.
However, with the exception of Germanischer Lloyd, ship certifications
are only included in the product information under www.hirschmann.com.
Use shielded twisted pair cables to fulfill the more stringent EMC
requirements for the particular certifications.

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A Further Support

 Technical Questions

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

You will find the addresses of our partners on the Internet at

http://www.hirschmann.com

Contact our support at

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

You can contact us

in the EMEA region at

 Tel.: +49 (0)1805 14-1538
 E-mail: hac.support@belden.com

in the America region at

 Tel.: +1 (717) 217-2270
 E-mail: inet-support.us@belden.com

in the Asia-Pacific region at

 Tel.: +65 6854 9860
 E-mail: inet-ap@belden.com

 Hirschmann Competence Center

The Hirschmann Competence Center is ahead of its competitors:

 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.
The current technology and product training courses can be found at

http://www.hicomcenter.com

 Support ranges from the first installation through the standby service

to maintenance concepts.

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

http://www.hicomcenter.com

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