Hirschmann RSPE30, RSPE35, RSPE32, RSPE37 User Manual

Installation RSPE30/32/35/37

Release 16 04/2019

Technical support

https://hirschmann-support.belden.com

User Manual

Installation
Industrial Ethernet Rail Switch Power

RSPE30/32/35/37

26.04.2019

Installation RSPE30/32/35/37

Release 16 04/2019

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

© 2019 Hirschmann Automation and Control GmbH

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

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

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

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

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

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Contents

Safety instructions 6

About this manual 18

Key 19

1 Description 20

1.1 General description 20

1.2 Device name and product code 21

1.3 Device views 25

1.3.1 Front view 25

1.3.2 Rear view 26

1.4 Power supply 27

1.4.1 Supply voltage with the characteristic value K9 27

1.4.2 Supply voltage with the characteristic value KK 27

1.4.3 Supply voltage with the characteristic value CC 27

1.4.4 Supply voltage with the characteristic value PP 27

1.5 Ethernet ports 28

1.5.1 10/100 Mbit/s twisted pair port 29

1.5.2 Gigabit combo port 29

1.5.3 100 Mbit/s F/O port (optional) 30

1.5.4 Support of PoE(+) 31

1.6 Display elements 32

1.6.1 Device state 32

1.6.2 Media module status 33

1.6.3 Port status 34

1.7 Management interfaces 36

1.7.1 V.24 interface (external management) 36

1.7.2 SD card interface 36

1.7.3 USB interface 37

1.8 Signal contact 37

2 Installation 38

2.1 Checking the package contents 38

2.2 Installing the SD card (optional) 38

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2.3 Mounting a cover panel or a media module 39

2.3.1 Mounting a cover panel 39

2.3.2 Mounting a media module 39

2.4 Installing and grounding the device 39

2.4.1 Installing the device onto the DIN rail 40

2.4.2 Grounding the device 41

2.5 Installing an SFP transceiver (optional) 41

2.6 Connecting the terminal blocks 42

2.6.1 Supply voltage with the characteristic value K9 42

2.6.2 Supply voltage with the characteristic value KK 43

2.6.3 Supply voltage with the characteristic value CC 45

2.6.4 Supply voltage with the characteristic value PP 46

2.6.5 Signal contact 47

2.7 Operating the device 48

2.8 Connecting data cables 48

2.9 Filling out the inscription label 49

3 Making basic settings 50

4 Monitoring the ambient air temperature 51

5 Maintenance and service 52

6Disassembly 53

6.1 Removing the device 53

6.2 Removing an SFP transceiver (optional) 54

6.3 Removing a media module (optional) 54

7 Technical data 55

7.1 General technical data 55

7.2 Dimension drawings 59

7.3 EMC and immunity 61

7.4 Network range 64

7.5 Power consumption/power output 68

7.6 Scope of delivery, order numbers and accessories 68

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8 Underlying technical standards 71

A Further support 72

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Safety instructions

 General safety instructions

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

instructions and warnings.

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

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

 Certified usage

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

Hirschmann product information, including this manual.

 Operate the product only according to the technical specifications.

See “Technical data” on page 55.

 Connect to the product only components suitable for the requirements

of the specific application case.

 Installation site requirements

 Install the device in a fire enclosure according to EN 60950-1.
 Only for device variants featuring supply voltage with characteristic

value K9 or KK:
Install this device solely in a switch cabinet or in an operating site with
restricted access, to which maintenance staff have exclusive access.

 Install the device at ambient temperatures greater than +113 °F

(+45 °C) in “restricted access locations” based on EN 60950-1
exclusively.

WARNING

UNCONTROLLED MACHINE ACTIONS

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

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

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 Device casing

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

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

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

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

 Qualification requirements for personnel

 Only allow qualified personnel to work on the device.

Qualified personnel have the following characteristics:

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

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

 Qualified personnel are aware of the dangers that exist in their work.
 Qualified personnel are familiar with appropriate measures against

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

 Qualified personnel receive training on a regular basis.

 National and international safety regulations

Verify that the electrical installation meets local or nationally applicable
safety regulations.

 Grounding the device

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

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

 Shielding ground

The overall shield of a connected shielded twisted pair cable is connected
to the grounding connector on the front panel as a conductor.
 Beware of possible short circuits when connecting a cable section with

conductive shielding braiding.

 Requirements for connecting electrical wires

 Before connecting the electrical wires, always verify that the

requirements listed are complied with.

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

Requirements for connecting the signal contact

 Requirements for connecting the supply voltage

All of the following requirements are complied with:

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

Table 1: Requirements for connecting electrical wires

All of the following requirements are complied with:

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

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

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

Observe the electrical threshold values for the signal contact.

See “General technical data” on page 55.

Table 2: Requirements for connecting the signal contact

Device variant Requirements
All variants All of the following requirements are complied with:

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

plate of the device.

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

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

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

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

 Relevant for North America:

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

Table 3: Requirements for connecting the supply voltage

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Only for device
variants featuring
supply voltage with
the characteristic
value CC:

If you connect 2 independent power sources, verify that the minus
terminal is grounded. Failure to follow this instruction can result in
equipment damage.

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

The following requirements are alternatively complied with:
Alternative 1 The power supply complies with the requirements

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

Alternative 2 Relevant for North America:

The power supply complies with the requirements
according to NEC Class 2.

Alternative 3 All of the following requirements are complied with:

 The power supply complies with the

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

 A fuse suitable for DC voltage is located in the

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

See “General technical data” on page 55.

Device variant Requirements

Table 3: Requirements for connecting the supply voltage

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 Supply voltage

The supply voltage is connected to the device casing through protective
elements exclusively.
 For supply voltage connections with protective conductor connection:

First connect the protective conductor before connecting the wires for
the supply voltage.

Exclusively for
device variants
featuring supply
voltage with
characteristic
value PP:

If you connect 2 independent power sources, verify that the plus terminal
of the power sources is not connected to each other. Failure to follow
these instructions can result in equipment damage.

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

The following requirements are alternatively complied with:
Alternative 1 The power supply complies with the requirements

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

Alternative 2 All of the following requirements are complied with:

 The power supply complies with the

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

 A fuse suitable for DC voltage is located in the

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

See “General technical data” on page 55.

Only for device
variants featuring
supply voltage with
characteristic
value K9 or KK:

All of the following requirements are complied with:

 Supply with DC voltage:

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

See “General technical data” on page 55.

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

 Supply with AC voltage:

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

See “General technical data” on page 55.

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

Device variant Requirements

Table 3: Requirements for connecting the supply voltage

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

operation

Relevant for RSPE devices when operating in explosive gas atmospheres
according to ATEX directive 2014/34/EU, the following applies:

 List of standards:

EN 60079-0:2012, A11:2013
EN 60079-15:2010
Certificate No.: DEKRA 15ATEX0016X

 Use only device variants featuring supply voltage with characteristic

value CC.

 Make sure that the device has the following label:

II 3G Ex nA IIC T4 Gc DEKRA 15ATEX0016X

for RSPE types

Ambient rating and temperature code for RSPE types:

T4: 0 °C ≤ Ta ≤ +60 °C for “S” types or
T4: −40 °C ≤ Ta ≤ +70 °C for “T” or “E” types

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

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

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

at the cable or conduit entry point, or 176 °F (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 119 V.

 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.

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 Relevant for use in explosion hazard areas (Hazardous

Locations, Class I, Division 2):

The relay connections are to be installed and used within their Entity
Parameters as per Control Drawing 000182303DNR.

Avertissement - Risque d'explosion - Ne pas débrancher tant que le
circuit est sous tension à moins que l'emplacement soit connu pour ne
contenir aucune concentration de gaz inflammable.

Avertissement - Risque d'explosion - La substitution de tout composant
peut rendre ce matériel incompatible pour une utilisation en classe I,
division 2.

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Control Drawing for RSPE devices according to Class , Division 2 Hazardous Locations
Rev.: 1 Document No.: 000182303DNR Page 1/2

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

Only allowed for RSPE/RSPM model No´s. which are individually labeled
“FOR USE IN HAZARDOUS LOCATIONS”.

This equipment is suitable for use in Class I, Division 2,

Groups A, B, C, and D OR non-hazardous locations only.

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

WARNING – EXPLOSION HAZARD
Substitution of any components may impair suitability for 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
known to be non-hazardous.

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Control Drawing for RSPE devices according to Class , Division 2 Hazardous Locations
Rev.: 1 Document No.: 000182303DNR Page 2/2

Ordinary Location,

Non-Hazardous Area,

Non-Explosive Atmosphere

Explosive Atmosphere
Class , Division 2
Groups A, B, C, D
Hazardous Location

RSPE - Industrial Ethernet

Rail Switch Power Enhanced

Relay

USB

P1

P2

The earth conductor must

be at least of the same
wire size (mm² or

AWG)

as the supply conductors.

Temperature Code: T4
Ambient Temperature rating:
Ta: 0 °C to +60 °C for “S” temperature types
Ta: í40 °C to +70 °C for “T” or “E” temperature types

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

Power Supply connectors

*) Notes:

The nonincendive  eld wiring circuit concept allows interconnection

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

Capacity: Ca  Ci + C

Cable

; Inductivity: La  Li + L

Cable

WARNING!

The USB is for temporary connection only, for maintenance

use. Do not use, connect or disconnect unless the area is
known to be non-hazardous.
Connection or disconnection in an explosive atmosphere
could result in an explosion.

The maximum cable length has to be determined as follows:

(a) max. Cable Length < (La í Li) / Cable

L

(”CableL” denotes the inductance per unit length of used cable)
and

(b) max. Cable Length < (Ca í Ci) / Cable

C

(“CableC” denotes the capacitance per unit length of used cable)

The lower value of (a) and (b) is to apply.

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

The relay terminals are dependent upon the following

Entity parameters:

U

i

I

i

C

i

L

i

30 V 90 mA 2 nF 1 H

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 IECEx – Certification Scheme for Explosive Atmospheres

For RSPE devices labeled with an IECEx certificate number, the following
applies:



List of standards:
IEC 60079-0:2011 + Cor.2012 + Cor.2013
IEC 60079-15:2010

 The equipment is suitable for use in an area with maximum pollution

degree 2, as defined in IEC 60664-1.

 Make sure that the device has the following label:

Ex nA IIC T4 Gc IECEx DEK 15.0013X

for RSPE types

Environmental class and temperature code for RSPE types:

T4: 0 °C ≤ Ta ≤ +60 °C for “S“ types or
T4: −40 °C ≤ Ta ≤ +70 °C for “T“ or “E“ types

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

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

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

at the cable or conduit entry point, or 176 °F (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 119 V.

 Connectors shall be connected or disconnected exclusively in dead-

voltage state.

 The USB port shall remain disconnected.

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 CE marking

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

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
Germany
www.hirschmann.com

The product can be used in the industrial sector.

 Interference immunity: EN 61000-6-2
 Emitted interference: EN 55032
 Reliability: EN 60950-1

You find more information on technical standards here:

“Technical data” on page 55

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.

 LED or laser components

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

Device variant Directive
All variants 2014/30/EU (EMC)

Directive of the European Parliament and the council for
standardizing the regulations of member states with regard to
electromagnetic compatibility.

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.

Only for device variants
featuring supply voltage with
characteristic value K9 or KK:

2014/35/EU
Directive of the European Parliament and of the Council on the
harmonisation of the laws of the Member States relating to the
making available on the market of electrical equipment
designed for use within certain voltage limits.

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 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 these
frequencies. 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 residential area can also cause interference, and in this
case the user is obliged to cover the costs of removing the interference.

 Recycling note

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

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About this manual

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

Documentation mentioned in the “User Manual Installation” that is not
supplied with your device as a printout can be found as PDF files for
downloading on the Internet at https://www.doc.hirschmann.com

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Key

The symbols used in this manual have the following meanings:

 Listing

 Work step



Subheading

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1 Description

1.1 General description

The RSPE30/32/35/37 devices are designed for the special requirements of
industrial automation. They meet the relevant industry standards, provide
very high operational reliability, even under extreme conditions, and also
long-term reliability and flexibility.

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

 Support of PoE(+)
 Temperature range
 Supply voltage range
 Certifications
 Redundancy functions

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

 Multimode optical fiber
 Singlemode optical fiber
 Twisted pair cable

The device is mounted by latching in place on a DIN rail.
The devices work without a fan.
By using media modules, you obtain up to 16 additional Fast Ethernet ports.
You will find more information on the media modules in the “User Manual for
Installation of RSPM”.
You find these manuals as PDF files on the Internet at http://

www.doc.hirschmann.com

The redundancy concept allows the network to be reconfigured quickly.

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

 Web browser
 SSH
 Telnet

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 V.24 interface (locally on the device)
 Network management software (for example Industrial HiVision)

The Network Management Software Industrial HiVision provides you with
options for smooth configuration and monitoring. You find further
information on the Internet at the Hirschmann product pages: http://

www.hirschmann.com/en/QR/INET-Industrial-HiVision

The devices provide you with a large range of functions, which the manuals
for the operating software inform you about. You find these manuals as PDF
files on the Internet at http://www.doc.hirschmann.com
The Hirschmann network components help you ensure continuous
communication across all levels of the company.

1.2 Device name and product code

The device name corresponds to the product code. The product code is
made up of characteristics with defined positions. The characteristic values
stand for specific product properties.
You have numerous options of combining the device characteristics. You can
determine the possible combinations using the Configurator which is
available in the Belden E-Catalog (www.e-catalog.beldensolutions.com) on
the web page of the device.

Item Characteristic Character

istic value

Description

1 ... 4 Product RSPE Rail Switch Power Enhanced
5 Data rate 3 10/100 Mbit/s

and
10/100/1000 Mbit/s

6 Hardware type 0 Standard

2 Standard with PoE(+)
5 Extended redundancy

7 Extended redundancy with PoE and PoE+
7 (hyphen) –
8 ... 9 Number

Fast Ethernet ports

24 24 ×

10 ... 11 Number

Gigabit Ethernet ports

04 4 ×

12 ... 14 Configuration of the

uplink ports

4O7 4 × Combo port for 10/100/1000 Mbit/s

connections

15 ... 17 Configuration of the

other ports

T 8 × RJ45 socket for 10/100 Mbit/s Twisted pair

connections

99 2 × free slot for media module
18 (hyphen) –

Table 4: Device name and product code

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19 Temperature range S Standard +32 °F ... +140 °F (0 °C ...

+60 °C)

T Extended −40 °F ... +158 °F

(−40 °C ... +70 °C)

E Extended with

Conformal Coating

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

20 ... 21 Supply voltage CC 2 voltage inputs for redundant power supply

Rated voltage range DC:
24 V DC ... 48 V DC

K9 1 voltage input

Rated voltage range AC:
110 V AC ... 230 V AC, 50 Hz ... 60 Hz

Rated voltage range DC:
60 V DC ... 250 V DC

KK 2 voltage inputs for redundant power supply

Rated voltage range AC:
110 V AC ... 230 V AC, 50 Hz ... 60 Hz

Rated voltage range DC:
60 V DC ... 250 V DC

PP PoE 2 voltage inputs for redundant power

supply
Rated voltage range

47 V DC ... 57 V DC

PoE+ 2 voltage inputs for redundant power

supply
Rated voltage range DC:

53 V DC ... 57 V DC

22 ... 23 Certificates and

declarations

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

See table 5 on page 24.

24 ... 25 Software packages 99 Reserved
26 ... 27 Customer-specific

version

HH Hirschmann Standard

28 Hardware

configuration

S Standard

MFast MRP

PPRP

HHSR

D From software version 05.0 onward:

Hirschmann DLR

Note: You can exchange software with each other on the

following device variants:

 M

 P

 H

 R

Item Characteristic Character

istic value

Description

Table 4: Device name and product code

P

++

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29 Software configuration E Entry (without configuration)

B Diagnostic User (BDEW)
PProfinet
I Ethernet/IP
D DLR (pre-configuration)

30 ... 31 Software level 2S HiOS Layer 2 Standard

2A HiOS Layer 2 Advanced
3S HiOS Layer 3 Standard

32 ... 36 Software version 03.1. Software version 03.1

XX.X. Current software version

37 ... 38 Maintenance 00 Bugfix version 00

XX Current bugfix version

Item Characteristic Character

istic value

Description

Table 4: Device name and product code

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Application case Certificates and

declarations

Characteristic value

a

a. X= Approval or self-declaration present

Z9 X9 W9 WX WU WD WC WB WA U9 UY UX UW T9 TY V9 VP VU P9

Standard applications ATEX Zone 2 XXXXXXX X

IECEx XXXX
CE XXXXXXXXXXXXXXXXXXX
EN 60950-1 XXXXXXXXXXXXXXXXXXX
EN 61131-2 XXXXXXXXXXXXXXXXXXX
FCC XXXXXXXXXXXXXXXXXXX
ISA-12.12.01 – ClassI, Div.2 X XXXX X
UL 61010-1, UL 61010-2-210 X XXXX XXX X XXX
UL 60950-1

Substation
applications

IEC 61850-3 XXX

IEEE 1613 XXX
Navy applications GL X X X X X X X X
Railway applications

(trackside)

EN 50121-4 XX

Table 5: Assignment: application cases, certificates and declarations, characteristic values

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1.3 Device views

1.3.1 Front view

Front view (using the example RSPE30-24044O7T99-SCC...)
1 RSPE basic device (slot 1)
2 LED display elements for device status
3 LED display element for media module status
4 only device variants RSPE32 and RSPE37:

LED display element for media module status and PoE status
5 Media module with 8 × RJ45 socket for 10/100 Mbit/s twisted pair connections (slot 1)
6 Slot 2 for media module RSPM
7 Slot 3 for media module RSPM
8 4 × Combo-Port for 10

a

100/1000 Mbit/s connections (slot 1)

9 Supply voltage connection

alternatively,

depending on

device variant

Supply voltage
with the
characteristic
value:

CC

 2 voltage inputs for redundant power

supply

 2-pin terminal block

Supply voltage
with the
characteristic
value:

K9

 1 voltage input
 3-pin terminal block

Supply voltage
with the
characteristic
value:

KK

 2 voltage inputs for redundant power

supply

 3-pin terminal block

Supply voltage
with the
characteristic
value:

PP

 2 voltage inputs for redundant power

supply

 2-pin terminal block

1

34 5

6

7

8

10

9

11

12

13

2

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1.3.2 Rear view

10 Grounding screw
11 Connection for the signal contact
12 USB interface
13 V.24 interface

a. only for twisted pair connections

1 Slot for the SD card
2 Thumb screw

1

2

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1.4 Power supply

You will find information on the characteristic values here:

“Device name and product code” on page 21

1.4.1 Supply voltage with the characteristic value K9

The following options for power supply are available:

 1 × 3-pin terminal block

You will find information on connecting the supply voltage here:

See “Supply voltage with the characteristic value K9” on page 42.

1.4.2 Supply voltage with the characteristic value KK

The following options for redundant power supply are available:

 2 × 3-pin terminal block

You will find information on connecting the supply voltage here:

See “Supply voltage with the characteristic value KK” on page 43.

1.4.3 Supply voltage with the characteristic value CC

The following options for redundant power supply are available:

 2 × 2-pin terminal block

You will find information on connecting the supply voltage here:

See “Supply voltage with the characteristic value CC” on page 45.

1.4.4 Supply voltage with the characteristic value PP

The following options for redundant power supply are available:

 2 × 2-pin terminal block

You will find information on connecting the supply voltage here:

See “Supply voltage with the characteristic value PP” on page 46.

These device variants support PoE(+).
Ensure that the external power supply unit you use to provide the PoE
voltage fulfills the insulation requirements according to IEEE 802.3
(insulation resistance 48 V DC, output to the “rest of the world” 750 V DC
for 60 seconds).

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1.5 Ethernet ports

You can connect end devices and other segments to the device ports using
twisted pair cables or optical fibers (F/O).

Note: By using media modules, you obtain up to 16 additional Fast Ethernet
ports.
You will find more information on the media modules in the “User Manual for
Installation of RSPM”.

Port 1 GE/FE Combo port 1 for Gigabit Ethernet and Fast Ethernet
Port 2 GE/FE Combo port 2 for Gigabit Ethernet and Fast Ethernet
Port 3 GE/FE Combo port 3 for Gigabit Ethernet and Fast Ethernet
Port 4 GE/FE Combo port 4 for Gigabit Ethernet and Fast Ethernet
Ports 5 to 12 Twisted pair port for Fast Ethernet

PoE-capable for the device variants RSPE32 and RSPE37

Table 6: Arrangement of the Ethernet ports on the device

RSPE32

x

1
GE/FE

1

GE/FE

2
GE/FE

2
GE/FE

3
GE/FE

3

GE/FE

4
GE/FE

4
GE/FE

5

6

7

8

9

10

11

12

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You find these manuals as PDF files on the Internet at http://

www.doc.hirschmann.com

1.5.1 10/100 Mbit/s twisted pair port

This port is an RJ45 socket.
The 10/100 Mbit/s twisted pair port allows you to connect network
components according to the IEEE 802.3 10BASE-T/100BASE-TX standard.
This port supports:

 Autonegotiation
 Autopolarity
 Autocrossing (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 port casing is electrically connected to the front panel.

1.5.2 Gigabit combo port

The RSPE30/32/35/37 device provides 4 combo ports for transmission
speeds of up to 1000 Mbit/s.

See table 6 on page 28.

You have the option of alternatively connecting a twisted pair cable via a
RJ45 socket or an optical fiber via a SFP transceiver to a combo port.
You obtain appropriate SFP transceivers as an accessory.

See “Accessories” on page 69.

By inserting a SFP transceiver, you deactivate automatically the
corresponding twisted pair interface.

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

This port is an RJ45 socket.
The 10/100/1000 Mbit/s twisted pair port allows you to connect network
components according to the IEEE 802.3 10BASE-T/100BASE-TX/
1000BASE-T standard.

Pin Function

1 RD+ Receive path
2RD− Receive path
3 TD+ Transmission path
6TD− Transmission path
4,5,7,8 —

Table 7: Pin assignment 10/100 Mbit/s twisted pair port, RJ45 socket, MDI-X mode

1
2
3
4
5
6
7
8

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This port supports:

 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 port casing is electrically connected to the front panel.
The pin assignment corresponds to MDI-X.

 100/1000 Mbit/s F/O port

This port is an SFP slot.
The 100/1000 Mbit/s F/O port allows you to connect network components
according to the IEEE 802.3 100BASE-FX/1000BASE-SX/1000BASE-LX
standard.
This port supports:

 1000 Mbit/s full duplex
 100 Mbit/s half-duplex mode, 100 Mbit/s full duplex mode

Delivery state:

 100 Mbit/s full duplex when using a Fast Ethernet SFP transceiver
 1000 Mbit/s full duplex when using a Gigabit Ethernet SFP transceiver

1.5.3 100 Mbit/s F/O port (optional)

This port is an SFP slot.
This option is available to you, if you use a RSPM media module comprising
F/O ports.
The 100 Mbit/s F/O port allows you to connect network components
according to the IEEE 802.3 100BASE-FX standard.
This port supports:

 100 Mbit/s half-duplex mode, 100 Mbit/s full duplex mode

Default setting: Full duplex

Pin Function

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

Table 8: Pin assignments of the 10/100/1000 Mbit/s twisted pair port in 1000 Mbit/s

mode, RJ45 socket, MDI-X mode

1
2
3
4
5
6
7
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Note: Insert the media module with 8 F/O ports exclusively in the media
module slot 3.

See “Front view” on page 25.

You will find more information on the media modules in the “User Manual for
Installation of RSPM”.
You find these manuals as PDF files on the Internet at http://

www.doc.hirschmann.com

1.5.4 Support of PoE(+)

The RSPE32 and RSPE37 device variants support Power over Ethernet
(PoE) and Power over Ethernet Plus (PoE+).
All Fast Ethernet ports are PoE-capable.
The Gigabit combo ports do not support PoE.

See “Device name and product code” on page 21.

The Fast Ethernet ports allow you to connect network components as a PoE
power source according to the standard IEEE 802.3 10BASE-T/100BASE­TX and IEEE 802.3af/at.
With the presence of the PoE power supply, a separate power supply for the
connected device is unnecessary.
The PoE power is supplied via the wire pairs transmitting the signal (phantom
voltage).
The individual ports (joint PoE voltage) are not electrically insulated from
each other.

Maximum power available to PoE end devices in total:
124 W
Maximum power available to a media module:
62 W

Note: Connect only PoE-supplier devices whose data connections are
located in the interior of the building and are specified as SELV circuits.

The PoE support complies with the following technical standards:

Technical
standard

Description

IEEE 802.3af Brief description PoE

Classes max. Powered Device (PD) class 0 (15.4 W)

IEEE 802.3at Brief description PoE+

Classes max. Powered Device (PD) class 4 (30 W)

Table 9: PoE support: technical standards

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In accordance with IEEE 802.3af and IEEE 802.3at:

 Endpoint PSE
 Alternative A.

1.6 Display elements

After the supply voltage is set up, the Software starts and initializes the
device. Afterwards, the device performs a self-test. During this process,
various LEDs light up.

1.6.1 Device state

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

LED Display Color Activity Meaning

Power Supply voltage — none Supply voltage is too low

yellow lights up Device variants with redundant power

supply:
Supply voltage 1 or 2 is on

flashes 4 times
a period

Software update is running. Maintain the
power supply.

green lights up Device variants with redundant power

supply:
Supply voltage 1 and 2 is on

Device variants with single power supply:
Supply voltage is on

ACA Storage medium

ACA21
ACA31

— none ACA storage medium not connected
green lights up ACA storage medium connected

flashes 3 times
a period

Device writes to/reads from the storage
medium

yellow lights up ACA storage medium inoperative

RM Ring Manager — none No redundancy configured

green lights up Redundancy exists

flashes 1 time
a period

Device is reporting an incorrect
configuration of the RM function

yellow lights up No redundancy exists

Status

RM

ACA

Power

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1.6.2 Media module status

 Device variants RSPE30 and RSPE35

1 LED is located on the upper part of the media module.
This LED provides information on the supply voltage status of the media
module.

 Device variants RSPE32 and RSPE37

2 LEDs are located on the upper part of the media module.
These LEDs combined provide information on the supply voltage status
and the PoE status of the media module.

Status Device Status — none Device is starting and/or is not ready for

operation.

green lights up Device is ready for operation.

Characteristics can be configured

red lights up Device is ready for operation.

Device has detected at least one error in
the monitoring results

flashes 1 time
a period

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

flashes 4 times
a period

Device has detected a multiple IP address

LED Display Color Activity Meaning

Power Supply voltage — none Media module is inoperative

green lights up Supply voltage is on

LED Display Color Activity Meaning

Power Supply voltage — none Media module is inoperative

green lights up Voltage supply to the media module is on

Voltage supply to the PoE port is on

yellow lights up PoE voltage is missing or is too low

LED Display Color Activity Meaning

Power

Power

P

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1.6.3 Port status

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

 Gigabit combo port

LED Display Color Activity Meaning

L/D Link status — none Device detects an invalid or missing

link

Note: When an SFP transceiver is
connected, the corresponding twisted
pair interface is automatically inactive.

green lights up Device detects a valid link

flashes 1 time a period Port is switched to stand-by
flashes 3 times a period Port is switched off

yellow lights up Device detects a non-supported SFP

transceiver or a non-supported data
rate

flashing Device is transmitting and/or receiving

data

flashes 1 time a period Device detects at least one

unauthorized MAC address (Port
Security Violation)

TX 1, 3

FX 1, 3

TX 2, 4

FX 2, 4

L/D

L/D

L/D

L/D

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 Fast Ethernet port

LED Display Color Activity Meaning

L/D Link status — none Device detects an invalid or missing

link

green lights up Device detects a valid link

flashes 1 time a period Port is switched to stand-by
flashes 3 times a period Port is switched off

yellow lights up Device detects a non-supported SFP

transceiver or a non-supported data
rate

flashing Device is transmitting and/or receiving

data

flashes 1 time a period Device detects at least one

unauthorized MAC address (Port
Security Violation)

PoE PoE status — none RSPE30, RSPE35:

LED is without any function
RSPE32, RSPE37:

No powered device connected

green lights up Powered device is supplied with PoE

voltage.

yellow flashes 1 time a period Output budget has been exceeded

Device has detected a connected
powered device

flashes 3 times a period PoE administrator status deactivated

FX

TX

PoE

L/D

L/D

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1.7 Management interfaces

1.7.1 V.24 interface (external management)

A serial interface is provided on the RJ11 socket (V.24 interface) for the local
connection of an external management station (VT100 terminal or PC with
corresponding terminal emulation). This enables you to set up a connection
to the Command Line Interface CLI and to the System Monitor.

Note: The Terminal cable is available as an accessory.

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

Figure 1: Pin assignment of the V.24 interface and the DB9 plug

1.7.2 SD card interface

The SD card interface allows you to connect the AutoConfiguration Adapter
ACA31 storage medium. This is used for saving/loading the configuration
data and diagnostic information, and for loading the software.

See “Accessories” on page 69.

For information about the position on the device see “Rear view” on page 26.

On the front of the device there is an LED display that informs you about the
status of the interface.

Only use Hirschmann SD cards.

VT100 terminal settings

Speed 9600 Baud
Data 8 bit
Stopbit 1 bit
Handshake off
Parity none

1

1

8

5

6

2
3

5

1
2
3
4
5
6

CTS
n.c.
TX
GND
RX
RTS

RJ11

DB9

RJ11

DB9

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1.7.3 USB interface

The USB interface allows you to connect the AutoConfiguration Adapter
ACA21 storage medium. This is used for saving/loading the configuration
data and diagnostic information, and for loading the software.

See “Accessories” on page 69.

For information about the position on the device see “Front view” on page 25.

On the front of the device there is an LED display that informs you about the
status of the interface.

The USB interface has the following properties:

 Supplies current of max. 500 mA
 Voltage not potential-separated
 Connectors: type A
 Supports the USB master mode


Supports USB 2.0

1.8 Signal contact

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

The signal contact is a potential-free relay contact. The signal contact is open
when the device is not connected to a power supply.
The signal contact allows you to control external devices or monitor device
functions.
In the configuration, you specify how the device uses the signal contact.
You will find detailed information on possible applications and the
configuration of the signal contact in the software user documentation. You
will find the software user documentation as PDF files on the Internet at

https://www.doc.hirschmann.com

Figure Pin Function

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

Table 10: Pin assignment of the USB interface

1

2

4

3

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2 Installation

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

Perform the following steps to install and configure the device:

 Checking the package contents
 Installing the SD card (optional)
 Mounting a cover panel or a media module
 Installing and grounding the device
 Installing an SFP transceiver (optional)
 Connecting the terminal blocks
 Operating the device
 Connecting data cables
 Filling out the inscription label

2.1 Checking the package contents

Proceed as follows:
 Check whether the package includes all items named in the section

“Scope of delivery” on page 68.

 Check the individual parts for transport damage.

2.2 Installing the SD card (optional)

Note: Only use the AutoConfiguration Adapter ACA31 storage medium.

See “Accessories” on page 69.

Proceed as follows:
 Deactivate the write protection on the SD card by pushing the write-

protect lock towards the middle of the card.

 Push the SD card into the slot with the beveled corner facing upwards.


Tighten the thumb screw hand-tight to fix the SD card.

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2.3 Mounting a cover panel or a media module

Hirschmann supplies the RSPE30/32/35/37 device with unused, uncovered
media module slots.

2.3.1 Mounting a cover panel

If you do not use media modules, seal the media module slots with cover
panels to keep the degree of protection; you obtain cover panels as an
accessory.

See “Accessories” on page 69.

Proceed as follows:

 Place the cover panel onto the media module slot of the device.
 Fasten the cover panel to the device by tightening the 2 screws.

2.3.2 Mounting a media module

Hirschmann supplies the media modules ready for operation.
The media modules provide restricted hot-swap-capability. You have the
option of mounting the media modules while the device is operating. To start
the operation, it is necessary to restart the device.

Proceed as follows:
 Remove the cover panel (if mounted) from the media module slot on the

device.

 Insert the media module into the slot on the device.
 Fasten the media module to the device by tightening the 2 screws.
 Restart the device.

2.4 Installing and grounding the device

WARNING

FIRE HAZARD

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

Failure to follow this instruction can result in death, serious injury, or
equipment damage.

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2.4.1 Installing the device onto the DIN rail

Verify that the device maintains the minimum clearance to meet the climatic
conditions during operation:

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

Decreasing the minimum clearance reduces the specified maximum
operating temperature.

See “General technical data” on page 55.

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

 Slide the upper snap-in guide of the device into the DIN rail.
 Press the media module downwards onto the clip-in bar.
 Snap in the device.

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

WARNING

ELECTRIC SHOCK

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

Failure to follow this instruction can result in death, serious injury, or
equipment damage.

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2.4.2 Grounding the device

The housing is grounded via the separate ground screw on the bottom left of
the front side of the device.
The device variants featuring supply voltage with characteristic value K9
and KK have a connection for protective grounding.
The device variants featuring supply voltage with characteristic value CC
and PP have a connection for functional grounding.
You will find information on the characteristic values here:

“Device name and product code” on page 21

 Always ground the device via the grounding screw.

2.5 Installing an SFP transceiver (optional)

Prerequisites:

Exclusively use Hirschmann SFP transceivers.

See “Accessories” on page 69.

Figure 3: Installing SFP transceivers: Installation sequence

Proceed as follows:

 Take the SFP transceiver out of the transport packaging (1).
 Remove the protection cap from the SFP transceiver (2).
 Push the SFP transceiver with the lock closed into the slot until it latches

in (3).

1

2

3

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2.6 Connecting the terminal blocks

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

2.6.1 Supply voltage with the characteristic value K9

You will find information on the characteristic values here:

“Device name and product code” on page 21

Figure 4: Supply voltage with the characteristic value K9: 3-pin terminal block with

screw locking

WARNING

ELECTRIC SHOCK

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

See “Requirements for connecting electrical wires” on page 7.

Never insert sharp objects (small screwdrivers, wires, etc.) into the
connection terminals for electric conductors, and do not touch the terminals.

Failure to follow this instruction can result in death, serious injury, or
equipment damage.

Type of the voltages
that can be
connected

Specification of the supply
voltage

Pin assignment

DC voltage Rated voltage range DC:

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

+/L Plus terminal of the supply voltage

-/N Minus terminal of the supply
voltage

Protective conductor

Table 11: Supply voltage with characteristic value K9: type and specification of the

supply voltage, pin assignment

N

L

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

 Remove the terminal connector from the device.
 Connect the protective conductor with the clamp.
 Connect the wires according to the pin assignment on the device with the

clamps.

 Fasten the wires in the terminal block by tightening the terminal screws.

2.6.2 Supply voltage with the characteristic value KK

You will find information on the characteristic values here:

“Device name and product code” on page 21

You have the option of supplying the supply voltage redundantly, without
load distribution.
Both supply voltage inputs are uncoupled.
With a redundant supply, the supply voltage 1 (upper voltage input on the
device) has priority.

AC voltage Rated voltage range AC:

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

+/L Outer conductor

-/N Neutral conductor
Protective conductor

WARNING

ELECTRIC SHOCK

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

Failure to follow this instruction can result in death, serious injury, or
equipment damage.

Type of the voltages
that can be
connected

Specification of the supply
voltage

Pin assignment

Table 11: Supply voltage with characteristic value K9: type and specification of the

supply voltage, pin assignment

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Figure 5: Supply voltage with the characteristic value KK: 3-pin terminal block with

screw locking

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

 Remove the terminal connector from the device.
 Connect the protective conductor with the clamp.
 Connect the wires according to the pin assignment on the device with the

clamps.

 Fasten the wires in the terminal block by tightening the terminal screws.
 You find the prescribed tightening torque in chapter:

“General technical data” on page 55

Type of the voltages
that can be
connected

Specification of the supply
voltage

Pin assignment

DC voltage Rated voltage range DC:

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

+/L Plus terminal of the supply voltage

-/N Minus terminal of the supply
voltage

Protective conductor

AC voltage Rated voltage range AC:

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

+/L Outer conductor

-/N Neutral conductor
Protective conductor

Table 12: Supply voltage with characteristic value KK: type and specification of the

supply voltage, pin assignment

WARNING

ELECTRIC SHOCK

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

Failure to follow this instruction can result in death, serious injury, or
equipment damage.

N

L

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With a non-redundant supply of the supply voltage, the device reports the
loss of a supply voltage. You can prevent this message by changing the
configuration in the Management.

2.6.3 Supply voltage with the characteristic value CC

You will find information on the characteristic values here:

“Device name and product code” on page 21

You have the option of supplying the supply voltage redundantly, without
load distribution.
Both supply voltage inputs are uncoupled.

Figure 6: Supply voltage with the characteristic value CC: 2-pin terminal block with

screw locking

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

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

clamps.

 Fasten the wires in the terminal block by tightening the terminal screws.

 You find the prescribed tightening torque in chapter:

“General technical data” on page 55

With a non-redundant supply of the supply voltage, the device reports the
loss of a supply voltage. You can prevent this message by applying the
supply voltage via both inputs, or by changing the configuration in the
Management.

Type of the voltages
that can be
connected

Specification of the supply
voltage

Pin assignment

DC voltage Rated voltage range DC:

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

+ Plus terminal of the supply voltage

− Minus terminal of the supply
voltage

Table 13: Supply voltage with characteristic value CC: type and specification of the

supply voltage, pin assignment

−

+

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2.6.4 Supply voltage with the characteristic value PP

You will find information on the characteristic values here:

“Device name and product code” on page 21

You have the option of supplying the supply voltage redundantly, without
load distribution.
Both supply voltage inputs are uncoupled.

Ensure that the external power supply unit you use to provide the PoE
voltage fulfills the insulation requirements according to IEEE 802.3
(insulation resistance 48 V DC, output to the “rest of the world” 750 V DC for
60 seconds).

Figure 7: Supply voltage with the characteristic value PP: 2-pin terminal block with

screw locking

Type of the voltages
that can be
connected

Specification of the supply
voltage

Pin assignment

When using PoE:
DC voltage

Rated voltage DC:
48 V DC
Voltage range DC incl. maximum
tolerances:
47 V DC ... 57 V DC

+ Plus terminal of the supply

voltage

− Minus terminal of the supply
voltage

When using PoE+:
DC voltage

Rated voltage DC:
54 V DC
Voltage range DC incl. maximum
tolerances:
53 V DC ... 57 V DC

+ Plus terminal of the supply

voltage

− Minus terminal of the supply
voltage

Without using PoE or
PoE+:
DC voltage

Rated voltage range DC:
24 V DC ... 48 V DC
Voltage range DC incl. maximum
tolerances:
19 V DC ... 60 V DC

+ Plus terminal of the supply

voltage

− Minus terminal of the supply
voltage

Table 14: Supply voltage with characteristic value PP: type and specification of the

supply voltage, pin assignment

−

+

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

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

clamps.

 Fasten the wires in the terminal block by tightening the terminal screws.

 You find the prescribed tightening torque in chapter:

“General technical data” on page 55

With a non-redundant supply of the supply voltage, the device reports the
loss of a supply voltage. You can prevent this message by applying the
supply voltage via both inputs, or by changing the configuration in the
Management.

2.6.5 Signal contact

 Connect the signal contact lines with the terminal block connections.
 Fasten the wires in the terminal block by tightening the terminal screws.

 You find the prescribed tightening torque in chapter:

“General technical data” on page 55

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2.7 Operating the device

Relevant for North America:
You find the prescribed tightening torque in chapter:

“General technical data” on page 55

Proceed as follows:

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

2.8 Connecting data cables

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

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

power supply cables and the data cables. Ideally, install the cables in
separate cable channels.

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

longer distances. If reducing the inductive coupling is necessary, verify
that the power supply cables and data cables cross at a 90° angle.

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

WARNING

ELECTRIC SHOCK

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

See “Requirements for connecting electrical wires” on page 7.

Ground the device before connecting any other cables.

Failure to follow this instruction can result in death, serious injury, or
equipment damage.

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2.9 Filling out the inscription label

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

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3 Making basic settings

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

 Input via the V.24 interface
 Input via the HiView or Industrial HiVision application. You find further

information about the applications HiView or Industrial HiVision on the
Internet at the Hirschmann product pages:

HiView

http://www.hirschmann.com/en/QR/INET-HiView

Industrial HiVision

http://www.hirschmann.com/en/QR/INET-Industrial-HiVision

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

 Default settings

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

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

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

TP ports: Autonegotiation

 RSTP (Rapid Spanning Tree) activated

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4 Monitoring the ambient air temperature

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

See “General technical data” on page 55.

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

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

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5 Maintenance and service

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

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

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

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

 Hirschmann is continually working on improving and developing their

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

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

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

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

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

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6Disassembly

6.1 Removing the device

Proceed as follows:

 Disconnect the data cables.
 Disable the supply voltage.
 Disconnect the terminal blocks.
 Disconnect the grounding.
 Insert a screwdriver horizontally below the casing into the locking gate.
 Without tilting the screwdriver, pull the locking gate down and tilt the

device upwards.

WARNING

ELECTRIC SHOCK

Disconnect the grounding only after disconnecting all other cables.

Failure to follow this instruction can result in death, serious injury, or
equipment damage.

1

2

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6.2 Removing an SFP transceiver (optional)

Figure 8: De-installing SFP transceivers: De-installation sequence

Proceed as follows:

 Open the locking mechanism of the SFP transceiver (1).
 Pull the SFP transceiver out of the slot via the open locking

mechanism (2).

 Close the SFP transceiver with the protection cap (3).

6.3 Removing a media module (optional)

You have the option to remove the media modules while the device is
operating.
Proceed as follows:

 Loosen the 2 screws on the media module.
 Pull the media module out of the slot.
 Seal the media module slot on the device with a cover panel.

See “Accessories” on page 69.

1

2

3

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7 Technical data

7.1 General technical data

Dimensions
W × H × D

RSPE30/32/35/37 See “Dimension drawings” on page 59.

Weight Devices with operating

temperature characteristic
value S (standard):

4.6 lb (2.2 kg)

Devices with operating
temperature characteristic
value E and T (extended):

5.5 lb (2.5 kg)

Supply voltage
with the
characteristic
value CC

Connection type 2-pin terminal block

Tightening torque 4.5 lb-in

(0.51 Nm)
Rated voltage DC: 24 V DC ... 48 V DC
Voltage range DC incl.

maximum tolerances:

18 V DC ... 60 V DC

Rated power RSPE30 for DC 0.6 A ... 1.3 A

RSPE35 for DC 0.7 A ... 1.4 A
Power loss buffer >10 ms at 20.4 V DC
Overload current protection on

the device

Non-replaceable fuse

Back-up fuse for each voltage
input

Nominal rating:

Characteristic:1Aslow blow
Peak inrush current <4 A

Supply voltage
with the
characteristic
value K9
and KK

Connection type 3-pin terminal block

Tightening torque 4.5 lb-in

(0.51 Nm)
Rated voltage range DC: 60 V DC ... 250 V DC
Voltage range DC incl.

maximum tolerances:

48 V DC ... 320 V DC

Rated voltage range AC: 110 V AC ... 230 V AC, 50 Hz ... 60 Hz
Voltage range AC incl.

maximum tolerances:

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

Rated power RSPE30 for AC

for DC

0.25 A ... 0.4 A

0.2 A ... 0.5 A

RSPE35 for AC

for DC

0.25 A ... 0.4 A

0.6 A ... 0.2 A
Power loss buffer > 10 ms at 98 V AC
Overload current protection on

the device

Non-replaceable fuse

Back-up fuse Nominal rating:

Characteristic:

1 A ... 20 A
slow blow

Peak inrush current <3.5 A

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Supply voltage
with the
characteristic
value PP

Connection type 2-pin terminal block

Tightening torque

4.5 lb-in
(0.51 Nm)

Rated voltage DC: When using PoE: 48 V DC

When using PoE+: 54 V DC
Without using PoE or PoE+: 24 V DC ...

48 V DC

a

Voltage range DC incl.
maximum tolerances:

When using PoE: 47 V DC ...

57 V DC

Rated power RSPE32 for DC 3.1 A ... 3.5 A

RSPE37 for DC 3.1 A ... 3.5 A
When using PoE+: 53 V DC ...

57 V DC

Without using PoE or PoE+:

19 V DC ...
60 V DC

a

Max. PoE power In total: 124 W

Per media module: 62 W
Power loss buffer >10 ms at 20.4 V DC
Overload current protection on

the device

Non-replaceable fuse

Back-up fuse Nominal rating: 6.3 A

Characteristic: slow blow
Peak inrush current <5 A

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Climatic
conditions
during
operation

Minimum clearance around
the device

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

Deratingb:
3 K at the following clearance:
Top and bottom device side: 0.79 in (2 cm)
Left and right device side: 0 in (0 cm)

Ambient air temperature

c

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

d

Devices with operating temperature
characteristic value E and T (extended):

 RSPE32, RSPE37:

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

e,f

−40 °F ... +185 °F (−40 °C ... +85 °C) for 16
hours (tested in accordance with
IEC 60068-2-2)

d,g

 RSPE30, RSPE35:

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

d

−40 °F ... +185 °F (−40 °C ... +85 °C) for 16
hours (tested in accordance with
IEC 60068-2-2)

d

Maximum inner temperature of
device (guideline)

Devices with operating temperature
characteristic value S (standard):
190°F (88°C)

Devices with operating temperature
characteristic value E and T (extended):

208°F (98°C)
Humidity 5 % ... 95 % (non-condensing)
Air pressure min. 700 hPa (+9842 ft; +3000 m)

max. 1060 hPa (-1312 ft; -400 m)

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Climatic
conditions
during storage

Ambient air temperature

b

-40 °F ... +185 °F (-40 °C ... +85 °C)
Humidity 5 % ... 95 % (non-condensing)
Air pressure min. 700 hPa (+9842 ft; +3000 m)

max. 1060 hPa (-1312 ft; -400 m)

Signal contact
(exclusively for device variants featuring supply voltage with characteristic value CC and PP)

Connection type 2-pin terminal block

Tightening torque 3 lb-in

(0.34 Nm)

Nominal value I

max

=1A at U

max

=30VAC

I

max

=1A at U

max

=60VDC

according to the UL Standards:

I

max

=1A at U

max

=30VAC

I

max

=1A at U

max

=30VDC

as per ANSI/UL 121201:

See control drawing in chapter “Relevant for use

in explosion hazard areas (Hazardous
Locations, Class I, Division 2):” on page 12

Signal contact
(only for device variants featuring supply voltage with characteristic value K9 and KK)

Connection type 2-pin terminal block

Tightening torque 3 lb-in

(0.34 Nm)

Nominal value I

max

=1A at U

max

= 230 V AC

I

max

=1A at U

max

=60VDC

I

max

= 0.2 A at U

max

= 125 V DC

I

max

= 0.1 A at U

max

= 250 V DC

according to the UL Standards:

I

max

=1A at U

max

=30VAC

I

max

=1A at U

max

=30VDC

as per ANSI/UL 121201:

See control drawing in chapter “Relevant for use

in explosion hazard areas (Hazardous

Locations, Class I, Division 2):” on page 12

Pollution degree 2
Protection

classes

Laser protection Class 1 in compliance with IEC 60825-1
Degree of protection IP20

a. Operation with power supply with characteristic value PP without using PoE or PoE+ in the

range 24 V DC (19 V DC) ... 48 V DC (60 V DC) is not covered by UL approvals.
b. Reduction of the maximum permitted ambient air temperature under specific conditions
c. Temperature of the ambient air at a distance of 2 in (5 cm) from the device
d. Hirschmann recommends to use SFP transceivers with “EEC” extension.
e. Use only SFP transceivers with the “EEC” extension, otherwise the standard temperature

range applies.
f. when equipped with max. 8 SFP transceivers; if a higher number is connected, the following

maximum values apply for the ambient air temperature:

- 9 to 12 transceivers: +149 °F (+65 °C); more than 12 transceivers: +140 °F (+60 °C)

g. when equipped with maximum 8 SFP transceivers; if a higher number is connected, the

following maximum values apply for the ambient air temperature:

9 to 12 transceivers: +176 °F (+80 °C); more than 12 transceivers: +167 F (+75 °C)

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7.2 Dimension drawings

Figure 9: Dimensions of the device variants with operating temperature

characteristic value S. For the characteristic value, cf. “Device name and

product code” on page 21.

209

mm

inch

60

2.36

164

6.46

7,1

0.27
115

4.52

6,6

0.26

7,3

0.29

8.19

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Figure 10: Dimensions of device variants with operating temperature characteristic

value E and T. For the characteristic value, cf. “Device name and product

code” on page 21.

217

8.54

mm

inch

60

2.36

164

6.46

7,1

0.27

115

4.52

6,6

0.26

7,3

0.29

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7.3 EMC and immunity

EMC interference
emission

Standard
applications

Navy applications Railway

applications
(trackside)

Substation
applications

Radiated emission

EN 55032 Class A Class A Class A Class A
GL Guidelines — EMC 1 — —
FCC 47 CFR Part 15 Class A Class A Class A Class A
EN 61000-6-4 Fulfilled Fulfilled Fulfilled Fulfilled

Conducted emission

EN 55032 DC supply connection Class A Class A Class A Class A
GL Guidelines DC supply connection — EMC 1 — —
FCC 47 CFR Part 15 DC supply connection Class A Class A Class A Class A
EN 61000-6-4 DC supply connection Fulfilled Fulfilled Fulfilled Fulfilled
EN 55032 Telecommunication connections Class A Class A Class A Class A
EN 61000-6-4 Telecommunication connections Fulfilled Fulfilled Fulfilled Fulfilled

EMC interference
immunity

Standard
applications

Navy applications Railway

applications
(trackside)

Substation
applications

Electrostatic discharge

EN 61000-4-2
IEEE C37.90.3

Contact discharge ±4kV ±6kV ±6kV ±8kV

EN 61000-4-2
IEEE C37.90.3

Air discharge ±8kV ±8kV ±8kV ±15kV

Electromagnetic field

EN 61000-4-3 80 MHz ... 3000 MHz 10 V/m 10 V/m max. 20 V/m 10 V/m
IEEE 1613 80 MHz ... 1000 MHz — — — 35 V/m

Fast transients (burst)

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EN 61000-4-4
IEEE C37.90.1

DC supply connection ±2 kV ±2 kV ±2 kV ±4 kV

EN 61000-4-4
IEEE C37.90.1

Data line ±4 kV ±4 kV ±2 kV ±4 kV

Voltage surges - DC supply connection

EN 61000-4-5 line/ground ±2 kV ±2 kV ±2 kV ±2 kV
IEEE 1613 line/ground — — — ±5 kV
EN 61000-4-5 line/line ±1 kV ±1 kV ±1 kV ±1 kV

Voltage surges - data line

EN 61000-4-5 line/ground ±1 kV ±1 kV ±2 kV ±2 kV

Conducted disturbances

EN 61000-4-6 150 kHz ... 80 MHz 10 V 10 V 10 V 10 V

EMC interference
immunity

Standard
applications

Navy applications Railway

applications
(trackside)

Substation
applications

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Damped oscillation – DC supply connection

EN 61000-4-12
IEEE C37.90.1

line/ground — — — 2.5 kV

EN 61000-4-12
IEEE C37.90.1

line/line — — — 1 kV

Damped oscillation – data line

EN 61000-4-12
IEEE C37.90.1

line/ground — — — 2.5 kV

EN 61000-4-12 line/line — — — ±1 kV

Pulse magnetic field

EN 61000-4-9 — — 300 A/m —

Stability Standard applications Navy applications Railway

applications
(trackside)

Substation applications

IEC 60068-2-6, test Fc Vibration 5 Hz ... 8.4 Hz with 0.14 in

(3.5 mm) amplitude

2 Hz ... 13.2 Hz
with 0.04 in (1 mm)
amplitude

— 2 Hz ... 9 Hz with 0.11 in (3 mm)

amplitude

8.4 Hz ... 150 Hz with 1 g

—

13.2 Hz ... 200 Hz
with 0.7 g

—

—

—

9 Hz ... 200 Hz with 1 g

200 Hz ... 500 Hz with 1.5 g

IEC 60068-2-27, test Ea Shock 15 g at 11 ms — — 10 g at 11 ms

EMC interference
immunity

Standard
applications

Navy applications Railway

applications
(trackside)

Substation
applications

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7.4 Network range

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

Product code
M-SFP-...

ModeaWave length Fiber System

attenuation

Example for F/O
cable length

b

Fiber attenuation BLPc/Dispersion

-SX/LC... MM 850 nm 50/125 µm 0 dB ... 7.5 dB 0 mi ... 0.34 mi
(0 km ... 0.55 km)

3.0 dB/km 400 MHz×km

-SX/LC... MM 850 nm 62.5/125 µm 0 dB ... 7.5 dB 0 mi ... 0.17 mi
(0 km ... 0.275 km)

3.2 dB/km 200 MHz×km

-MX/LC EEC MM 1310 nm 50/125 µm 0 dB ... 12 dB 0 mi ... 0.93 mi
(0 km ... 1.5 km)

1.0 dB/km 800 MHz×km

-MX/LC EEC MM 1310 nm 62.5/125 µm 0 dB ... 12 dB 0 mi ... 0.31 mi
(0 km ... 0.5 km)

1.0 dB/km 500 MHz×km

-LX/LC... MM 1310 nm

d

50/125 µm 0 dB ... 10.5 dB 0 mi ... 0.34 mi

(0 km ... 0.55 km)

1.0 dB/km 800 MHz×km

-LX/LC... MM 1310 nm

e

62.5/125 µm 0 dB ... 10.5 dB 0 mi ... 0.34 mi
(0 km ... 0.55 km)

1.0 dB/km 500 MHz×km

-LX/LC... SM 1310 nm 9/125 µm 0 dB ... 10.5 dB 0 mi ... 12.43 mi
(0 km ... 20 km)

f

0.4 dB/km 3.5 ps/(nm×km)

-LX+/LC... SM 1310 nm 9/125 µm 5 dB ... 20 dB 8.70 mi ...

26.10 mi (14 km ...
42 km)

0.4 dB/km 3.5 ps/(nm×km)

-LH/LC... LH 1550 nm 9/125 µm 5 dB ... 22 dB 14.29 mi ...

49.71 mi (23 km ...
80 km)

0.25 dB/km 19 ps/(nm×km)

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

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-LH+/LC LH 1550 nm 9/125 µm 15 dB ... 30 dB 44.12 mi ...

67.11 mi (71 km ...
108 km)

0.25 dB/km 19 ps/(nm×km)

-LH+/LC LH 1550 nm 9/125 µm 15 dB ... 30 dB 44.12 mi ...

79.54 mi (71 km ...
128 km)

0.21 dB/km
(typically)

19 ps/(nm×km)

a. MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul
b. Including 3 dB system reserve when compliance with the fiber data is observed.
c. Using the bandwidth-length product is inappropriate for expansion calculations.
d. With F/O adapter compliant with IEEE 802.3-2002 Clause 38 (single-mode fiber offset-launch mode conditioning patch cord).
e. With F/O adapter compliant with IEEE 802.3-2002 Clause 38 (single-mode fiber offset-launch mode conditioning patch cord).
f. Including 2.5 dB system reserve when compliance with the fiber data is observed.

Product
code
M-SFP­BIDI...

ModeaWave lengthTXWave lengthRXFiber System

attenuation

Example for F/
O cable
length

b

Fiber attenuation Dispersion

Type A
LX/LC
EEC

SM 1310 nm 1550 nm 9/125 µm 0 dB ... 11 dB 0 km ...

12.43 mi
(0 km ... 20 km)

0.4 dB/km 3.5 ps/(nm×km)

Type B
LX/LC
EEC

SM 1550 nm 1310 nm 9/125 µm 0 dB ... 11 dB 0 mi ...

12.43 mi
(0 km ... 20 km)

0.25 dB/km 19 ps/(nm×km)

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

Product code
M-SFP-...

ModeaWave length Fiber System

attenuation

Example for F/O
cable length

b

Fiber attenuation BLPc/Dispersion

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

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Type A
LH/LC
EEC

LH 1490 nm 1590 nm 9/125 µm 5 dB ... 24 dB 14.29 mi ...

49.71 mi
(23 km ...
80 km)

0.25 dB/km 19 ps/(nm×km)

Type B
LH/LC
EEC

LH 1590 nm 1490 nm 9/125 µm 5 dB ... 24 dB 14.29 mi ...

49.71 mi
(23 km ...
80 km)

0.25 dB/km 19 ps/(nm×km)

a. MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul
b. Including 3 dB system reserve when compliance with the fiber data is observed.

Product code
M-FAST-SFP-...

ModeaWave length Fiber System

attenuation

Example for F/O
cable length

b

Fiber attenuation BLP/Dispersion

-MM/LC... MM 1310 nm 50/125 µm 0 dB ... 8 dB 0 mi ... 3.11 mi

(0 km ... 5 km)

1.0 dB/km 800 MHz×km

-MM/LC... MM 1310 nm 62.5/125 µm 0 dB ... 11 dB 0 mi ... 2.49 mi

(0 km ... 4 km)

1.0 dB/km 500 MHz×km

-SM/LC... SM 1310 nm 9/125 µm 0 dB ... 13 dB 0 mi ... 15.53 mi

(0 km ... 25 km)

0.4 dB/km 3.5 ps/(nm×km)

-SM+/LC... SM 1310 nm 9/125 µm 10 dB ... 29 dB 15.53 mi ...

40.39 mi (25 km ...
65 km)

0.4 dB/km 3.5 ps/(nm×km)

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

Product
code
M-SFP­BIDI...

ModeaWave lengthTXWave lengthRXFiber System

attenuation

Example for F/
O cable
length

b

Fiber attenuation Dispersion

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

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-LH/LC... SM 1550 nm 9/125 µm 10 dB ... 29 dB 29.20 mi ...

64.62 mi (47 km ...
104 km)

0.25 dB/km 19 ps/(nm×km)

-LH/LC... SM 1550 nm 9/125 µm 10 dB ... 29 dB 14.29 mi ...

86.99 mi (55 km ...
140 km)

0.18 dB/km

c

18 ps/(nm×km)

a. MM = Multimode, SM = Singlemode, LH = Singlemode Longhaul
b. Including 3 dB system reserve when compliance with the fiber data is observed.
c. With ultra-low-loss optical fiber.

10/100/1000 Mbit/s twisted pair port

Length of a twisted pair segment max. 328 ft (100 m) (for Cat5e cable)

Table 18: Network range: 10/100/1000 Mbit/s twisted pair port

Product code
M-FAST-SFP-...

ModeaWave length Fiber System

attenuation

Example for F/O
cable length

b

Fiber attenuation BLP/Dispersion

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

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7.5 Power consumption/power output

The order numbers correspond to the product codes of the devices.

See “Device name and product code” on page 21.

7.6 Scope of delivery, order numbers and
accessories

 Scope of delivery

Device name Maximum

power
consumption

a

a. You can find the total power consumption specifications for basic modules that are to be

installed in the “User Manual Installation RSPM”.

Power output

RSPE30 16 W 55 Btu (IT)/h
RSPE32 including 124 W PoE output power 151 W 92 Btu (IT)/h
RSPE 35 18 W 61 Btu (IT)/h
RSPE37 including 124 W PoE output power 153 W 98 Btu (IT)/h
RSPM20-4Z64Z6... 9 W 31 Btu (IT)/h
RSPM20-4T14T1... 2 W 7 Btu (IT)/h
RSPM20-4T14Z6... 5 W 17 Btu (IT)/h
RSPM22-4T14T1... including PoE output power 2 W 7 Btu (IT)/h
RSPM22-4T14Z6... including PoE output power 5 W 17 Btu (IT)/h

Number Article

1× Device
1 × 2-pin terminal block for signal contact
1 × 3-pin terminal block for the supply voltage

(only for device variants featuring supply voltage with characteristic value K9)

2 × 3-pin terminal block for the supply voltage

(exclusively for device variants featuring supply voltage with characteristic
value KK)

2 × 2-pin terminal block for the supply voltage

(only for device variants featuring supply voltage with characteristic value CC
or PP)

1 × General safety instructions

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 Accessories

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

Name Order number

Terminal cable 943 301-001
Network management software Industrial HiVision 943 156-xxx
For device variants featuring supply voltage with characteristic

value K9 or KK:
3-pin terminal block for supply voltage (50 pieces)

943 845-008

For device variants featuring supply voltage with characteristic
value CC or PP:
2-pin terminal block (50 pieces) for supply voltage

943 845-009

2-pin terminal block for signal contact (50 pieces) 943 845-010
Power Cord 942 000-001
Protection cap for RJ45 socket (50 pieces) 943 936-001
Protection cap for SFP slot (25 pieces) 943 942-001
Cover panel for unused module slot 942-131-001
AutoConfiguration Adapter ACA31 942 074-001
AutoConfiguration Adapter ACA21-USB (EEC) 943 271-003
AutoConfiguration Adapter ACA22-USB (EEC) 942 124-001

Gigabit Ethernet SFP transceiver Order number

M-SFP-TX/RJ45 943 977-001
M-SFP-TX/RJ45 EEC 942 161-001
The following operating conditions apply to twisted pair transceivers:

 Longer RSTP switching times and link loss detection times compared to twisted pair ports

provided by the device directly.

 Not applicable for combo and Fast Ethernet ports.
 Exclusively supports the autonegotiation mode including autocrossing.

M-SFP-SX/LC 943 014-001
M-SFP-SX/LC EEC 943 896-001
M-SFP-MX/LC EEC 942 108-001
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
M-SFP-LH+/LC EEC 942 119-001
SFP-GIG-LX/LC

a

a. You will find further information on certifications on the Internet on the Hirschmann product

pages (www.hirschmann.com).

942 196-001

SFP-GIG-LX/LC EEC

a

942 196-002

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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-TX/RJ45 942 098-001
M-FAST SFP-TX/RJ45 EEC 942 098-002
The following operating conditions apply to twisted pair transceivers:

 Longer RSTP switching times and link loss detection times compared to twisted pair ports

provided by the device directly.

 Not applicable for combo ports.
 Not applicable for ports which support only Gigabit Ethernet.
 It is currently not possible to set autocrossing manually.

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
SFP-FAST-MM/LC

a

a. You will find further information on certifications on the Internet on the Hirschmann product

pages (www.hirschmann.com).

942 194-001

SFP-FAST-MM/LC EEC

a

942 194-002

SFP-FAST-SM/LC

a

942 195-001

SFP-FAST-SM/LC EEC

a

942 195-002

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8 Underlying technical standards

The device has an approval based on a specific standard exclusively if the
approval indicator appears on the device casing.
If your device has a shipping approval according to Germanischer Lloyd, you
find the approval mark printed on the device label. You will find out whether
your device has other shipping approvals on the Hirschmann website
under www.hirschmann.com in the product information.
The device generally fulfills the technical standards named in their current
versions.

Name

CSA C22.2 No. 142 Canadian National Standard(s) – Process Control Equipment –

Industrial Products

ANSI/UL 121201 Nonincendive Electrical Equipment for Use in Class I and II,

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

EN 50121-4 Railway applications – EMC – Emission and immunity of the

signaling and telecommunications apparatus (Rail Trackside)

EN 55032 Electromagnetic compatibility of multimedia equipment –

Emission Requirements

EN 60950-1 Information technology equipment – Safety – Part 1: General

requirements

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

standards – Immunity for industrial environments

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

tests
FCC 47 CFR Part 15 Code of Federal Regulations
German Lloyd Classification and Construction Guidelines VI-7-3 Part 1 Ed.2003
IEC/EN 61850-3 Communication networks and systems for power utility

automation - Part 3: General requirements.
IEEE 1613 IEEE Standard Environmental and Testing Requirements for

Communication Networking Devices in Electric Power

Substations
IEEE 802.1AB Station and Media Access Control Connectivity Discovery
IEEE 802.1D MAC Bridges (switching function)
IEEE 802.1Q Virtual LANs (VLANs, MRP, Spanning Tree)
IEEE 802.3 Ethernet
UL/IEC 61010-2-201 Safety for Control Equipment
UL 60950-1 Information technology equipment – Safety – Part 1: General

requirements

Table 19: List of the technical standards

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A Further support

Technical questions

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

You find the addresses of our partners on the Internet at http://

www.hirschmann.com.

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

hirschmann-support.belden.com.

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

Hirschmann Competence Center

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

 Consulting incorporates comprehensive technical advice, from system

evaluation through network planning to project planning.

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

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

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

maintenance concepts.

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

Internet:

http://www.hicomcenter.com

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