Belden Hirschmann MICE MS20, Hirschmann MICE MS30 User Manual

User Manual

MICE MS20 MICE MS30

Installation
Industrial ETHERNET Switch MICE

MS20/MS30

Installation MS20/MS30

Release 13 09/2019

https://hirschmann-support.belden.com

Technical Support

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

17.9.19

Installation MS20/MS30

Release 13 09/2019

Contents

Safety instructions 5

About this Manual 19

Legend 20

1 Description 21

1.1 General device description 21

1.2 Device name and product code 23

1.3 Description of the device variants 24

1.3.1 Number of ports and connections 25

1.3.2 Media modules 29

1.3.3 Digital I/O Module MM24 34

1.3.4 MB20 extender module 34

1.3.5 SFP Transceiver 34

1.4 Ethernet ports 35

1.4.1 10/100/1000 Mbit/s twisted pair port 35

1.4.2 10/100 Mbit/s twisted pair port 36

1.4.3 10/100 Mbit/s PoE port 36

1.4.4 1000 Mbit/s F/O port 36

1.4.5 100 Mbit/s F/O port 37

1.4.6 Pin assignments 37

1.5 AUI port 38

1.6 Display elements 39

1.6.1 Device status 40

1.6.2 Display status 41

1.6.3 Port status 42

2 Installation 43

2.1 Checking the package contents 43

2.2 Installing media modules 44

2.3 Filling out and attaching labels 44

2.4 Installing an SFP transceiver (optional) 46

2.5 Adjusting the DIP switch settings on the basic module (4-pin
DIP switch) 46

2.6 Adjusting the DIP switch settings on the MS20/MS30-...E...
basic module (3-pin DIP switch) 48

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2.7 Adjusting the DIP switch settings on the
MM20-A8A89999SAHH media module 49

2.8 Connecting the MM22-T1T1T1T1 PoE media module 49

2.9 Terminal block for supply voltage and signal contact 51

2.9.1 Supply voltage 51

2.9.2 Signal contacts 51

2.10 Connecting the terminal blocks, start-up procedure 52

2.10.1 Terminal blocks on MS20/MS30-...A... and MS20/

MS30-...C... 52

2.10.2 Terminal block on MS20/MS30-...E... 53

2.10.3 Operating the device 53

2.11 Installing and grounding the device 54

2.11.1 Installing the device onto the DIN rail 54

2.11.2 Grounding the device 55

2.12 Connecting data cables 55

2.12.1 Twisted Pair ports 55

2.12.2 Optical fiber ports 55

2.13 Assembly of the MB20 extender module 56

2.14 Defining the meaning of the display LEDs 56

3 Making basic settings 57

4 Maintenance and service 59

5Disassembly 60

5.1 Removing the device 60

5.2 Removing an SFP transceiver (optional) 61

6 Technical data 62

A Further support 81

Installation MS20/MS30

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Safety instructions

WARNING

UNCONTROLLED MACHINE ACTIONS

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

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

 Certified usage

Use the device solely for the application cases described in the
Hirschmann product information, including this manual.
Operate the device solely according to the technical specifications.

 Supply voltage

The devices are designed for operation with safety extra-low voltage.
Connect only SELV circuits with voltage restrictions in line with IEC/EN
60950-1 to the supply voltage connections and signal contacts.
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.

Only use copper wire/conductors of class 1, 75 °C (167 °F).

 Use in Hazardous Locations

 Relevant for North America for modules certified for Hazardous

Locations:
This equipment is suitable for use in Class 1, Division 2, Groups A, B,
C and D or Non-Hazardous (unclassified) locations only.
Make sure that peripheral devices are suitable for the application
environment. The wiring for the voltage supply and for the inputs and
outputs (I/O) must adhere to the wiring regulations for Class 1,
Division 2 [article 501(b) of the National Electrical Code (USA),
NFPA 70] and to the applicable statutory regulations.

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Note: Observe the control drawing (document number
000160011DNR) on the following pages.

 Relevant for Europe

for devices installed in explosive gas atmospheres according to ATEX
directive 2014/34/EU:
Make sure that the device has the following label:

II 3G (... followed by additional specifications).

Note: Observe the control drawing (document number
000160011DNR) on the following pages.

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.

Installation MS20/MS30

6

Release 13 09/2019

CONTROL DRAWING for Industrial ETHERNET Rail Switch MS20 and MS30 devices
943

-435-999 according to the directive 2014/34/EU

or Class I Division 2 Hazardous Locations

Version: 3

Document No.: 000160011DNR

Page 1/4

P1

P2

Ordinary Location,

Non-

Hazardous Area,

non-explosive

atmosphere

WARNING! The USB connection and the V.24
Interface connection are 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!

Relay

Relay

The earth conductor must be at
least the same wire size (mm²
or AWG) as the supply
conductors.

Power Supply range “C” (P1, P2 Redundant)

18 – 60 VDC;

4.0 – 1.2 A; max. 72

W

Relay contacts:

Equipment with nonincendive field wiring
parameters.
Polarity is not relevant.

THE RELAY TERMINALS ARE DEPENDENT
UPON THE FOLLOWING ENTITY
PARAMETERS:

1) 2

)

Temperature Code: T4

Ambient Temperature rating:
Ta:

0 °C to +60 °C for “S” types

Ta:

-40 °C to +70 °C for “T” or “E” types

– refer to the type designation on the device

(Position 10 of nomenclature: “Temperature

range”).

MS20/30 switch basic module

with voltage range type “C”

Zone 2: Explosive Atmosphere

or Class I, Division 2,

Groups A, B, C, D

Hazardous Location

Ui

Ii

Ci

Li

30 V

90 mA

2 nF

1 µH

Installation MS20/MS30

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CONTROL DRAWING for Industrial ETHERNET Rail Switch MS20 and MS30 devices
943

-435-999 according to the directive 2014/34/EU

or Class I Division 2 Hazardous Locations

Version: 3

Document No.: 000160011DNR

Page 2/4

WARNING! The USB connection and the V.24
Interface connection are 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!

Relay

Relay

P1

P2

Power Supply range “A” (P1, P2 Redundant)

18 – 32 VDC;

4.0 – 2.25 A; max. 72 W

Temperature Code: T4

Ambient Temperature rating:
Ta

: 0°C to +60°C for “S” types

Ta:

-40°C to +70°C for “T” or “E” types

– refer to the type designation on the device

(Position 10 of nomenclature: “Temperature r

ange”).

Zone 2: Explosive

Atmosphere
or Class I Division 2
Groups A, B, C, D

Hazardous Location

Ordinary Location,

Non-

Hazardous Area,

non-

explosive atmosphere

The earth conductor must be at
least the same wire size (mm²
or AWG) as the supply
conductors.

MS20/30 switch basic module

with voltage range type “A”

Relay contacts:
Equipment with nonincendi

ve field wiring

parameters.
Polarity is not relevant.

THE RELAY TERMINALS ARE DEPENDENT
UPON THE FOLLOWING ENTITY
PARAMETERS:

1) 2

)

Ui

Ii

Ci

Li

30 V

90 mA

2 nF

1 µH

8

Installation MS20/MS30

Release 13 09/2019

For Use in explosive atmospheres under the European directive 2019/34/EU:
Applied Standards: EN 60079-0: 2012 + A11: 2013
EN 60079-15: 2010
EN 60079-11: 2012

The Use in Hazardous Locations with explosive atmospheres is only allowed for MS20 or MS30 model
No´s. which are individually labelled

“8 II 3G” and “Ex nA ic IIC T4 Gc” and “DEKRA 13 ATEX 0019X” for MSxx devices,
“8 II 3G” and “Ex nA IIC T4 Gc” and “DEKRA 13 ATEX 0019X” for MB20 devices.

Special conditions for safe use

1. The modules shall be installed in a suitable enclosure in accordance with EN60079-15, taking into
account the environmental conditions under which the equipment will be used.

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

3. 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
shall be in compliance with the actual measured temperature values.

Note

1

):

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.

Capacity: C

0

≥ Ci + C

Cable

; Inductivity: L0 ≥ Li + L

Cable

The maximum cable length has to be determined as follows:
(a) max. Cable Length < (L

0 - Li

) / Cable L

(“Cable

L

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

(b) max. Cable Length < (C

0 - Ci

) / Cable C

(“Cable C” denotes the capacitance per unit length of used cable).

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

Manufactured in 72654 Neckartenzlingen / Germany by Hirschmann Automation and Control GmbH.
DOM: ww/yyyy (Date of manufactur: w - week, y - year. Refer to the device label).

CONTROL DRAWING for Industrial ETHERNET Rail Switch MS20 and MS30 devices
943

-435-999 according to the directive 2014/34/EU

or Class I Division 2 Hazardous Locations

Rev.: 3

Document No.: 000160011DNR

Page 3/4

Installation MS20/MS30

Release 13 09/2019

9

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

Applied standard: ANSI/ISA 12.12.01-2011.

Only allowed for MS20 or MS30 model No´s. which are individually labelled

“FOR USE IN HAZARDOUS LOCATIONS”

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

WARNING – EXPLOSION HAZARD – SUBSTITUTION OF ANY COMPONENTS MAY
IMPAIR SUITABILITY FOR 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 NON­HAZARDOUS.

Use 60/75 or 75 °C copper (CU) wire only.

Only for connection to a Class 2 power supply.

Note

2

):

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.

Capacity: C

a

≥ Ci + C

Cable

; Inductivity: La ≥ Li + L

Cable

The maximum cable length has to be determined as follows:
(a) max. Cable Length < (L

a - Li

) / Cable L

(“Cable

L

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

(b) max. Cable Length < (C

a - Ci

) / Cable

C

(“Cable C” denotes the capacitance per unit length of used cable).

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

Manufactured in 72654 Neckartenzlingen / Germany by Hirschmann Automation and Control
GmbH.
DOM: ww/yyyy (Date of manufactur: w - week, y - year. Refer to the device label).

CONTROL DRAWING for Industrial ETHERNET Rail Switch MS20 and MS30 devices
943

-435-999 according to the directive 2014/34/EU

or Class I Division 2 Hazardous Locations

Rev.: 3

Document No.: 000160011DNR

Page 4/4

10

Installation MS20/MS30

Release 13 09/2019

 IECEx – Certification Scheme for Explosive Atmospheres

Relevant for MS20/MS30 series devices installed in explosive gas
atmospheres according to IECEx:
Observe the “Conditions for safe use for Industrial Ethernet RAIL Switch
MS20 and MS30 devices 943-435-999 according to the IECEx
Certification Scheme” on the following pages.

Installation MS20/MS30

Release 13 09/2019

11

Conditions for safe use for Industrial Ethernet Rail Switch MS20 and MS30 devices
943-435-999 according to the IECEx Certification Scheme

Page 1/3

P1

P2

Ordinary Location,

Non-

Hazardous Area,

non-explosive

atmosphere

WARNING! The USB connection and the V.24
Interface connection are 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!

Relay

Relay

The earth conductor must be at
least the same wire size (mm²
or AWG) as the supply
conductors.

Power Supply range “C” (P1, P2 Redundant)

18 – 60 VDC;

4.0 – 1.2 A; max. 72

W

Relay contacts:

T

he Fault Relays are tested as Sealed Device

according to IEC 60079

-15.

Switching current max. 1 A, (resistive load)
Switching voltage max. 60 VDC or 30 VAC,

SELV.

Temperature Code: T4

Ambient Temperature rating:
Ta:

0 °C to +60 °C for “S” types

Ta:

-40 °C to +70 °C for “T” or “E” types

– refer to the type designation on the device

(Position 10 of nomenclature: “Temperature

range”).

MS20/30 switch basic module

with voltage range type “C”

Zone 2: Explosive Atmosphere

12

Installation MS20/MS30

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Conditions for safe use for Industrial Ethernet Rail Switch MS20 and MS30 devices
943-435-999 according to the IECEx Certification Scheme

Page 2/3

WARNING! The USB connection and the V.24
Interface connection are 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!

Relay

Relay

P1

P2

Power Supply range “A” (P1, P2 Redundant)

18 – 32 VDC;

4.0 – 2.25 A; max. 72

W

Temperature Code: T4

Ambient Temperature rating:
T

a: 0°C to +60°C for “S” types

Ta:

-40°C to +70°C for “T” or “E” types

– refer to the type designation on the device

(Position 10 of nomenclature: “Temperature

range”).

Zone 2: Explosive Atmosphere

Ordinary Location,

Non-

Hazardous Area,

non-

explosive atmosphere

The earth conductor must be at
least the same wire size (mm²
or AWG)

as the supply

conductors.

MS20/30 switch basic module

with voltage range type “A”

Relay contacts:

The Fault Relays are tested as Sealed Device
according to IEC 60079

-15.

Switching current max. 1 A, (resistive load)
Switching voltage max. 60 VDC or 30 VAC, SELV.

Installation MS20/MS30

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For Use in explosive atmospheres under the IECEx Scheme:

Applied Standards: IEC 60079-0:2011 + Corr. 1:2012 + Corr. 2:2013

IEC 60079-15:2010

The Use in Hazardous Locations with explosive atmospheres is only allowed for MS20 or MS30 model
No´s. which are individually labelled

“Ex nA IIC T4 Gc” and “IECEx DEK 14.0078X” for MSxx devices and for MB20 devices

Special conditions for safe use

1. The modules shall be installed in a suitable enclosure in accordance with IEC60079-15, taking into
account the environmental conditions under which the equipment will be used.

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

3. 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
shall be in compliance with the actual measured temperature values.

4. The equipment shall only be used in an area of not more than pollution degree 2, as defined in
IEC 60664-1.

Note

1

):

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.

Capacity: C

0

≥ Ci + C

Cable

; Inductivity: L0 ≥ Li + L

Cable

The maximum cable length has to be determined as follows:
(a) max. Cable Length < (L

0 - Li

) / Cable L

(“Cable

L

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

(b) max. Cable Length < (C

0 - Ci

) / Cable C

(“Cable C” denotes the capacitance per unit length of used cable).

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

Manufactured in 72654 Neckartenzlingen / Germany by Hirschmann Automation and Control GmbH.
DOM: ww/yyyy (Date of manufactur: w - week, y - year. Refer to the device label).

Conditions for safe use for Industrial Ethernet Rail Switch MS20 and MS30 devices
943-435-999 according to the IECEx Certification Scheme

Page 3/3

14

Installation MS20/MS30

Release 13 09/2019

 Shielded ground

The shielded ground wire of the twisted pairs cables is connected to the
front panel as a conductor.
Beware of possible short circuits when connecting a cable section with
conductive shield braiding.

 Device casing

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 casing.
The lower panel of the device is grounded by means of the DIN rail and
optionally by means of the separate ground screw.
 The switch basic module is an inseparable unit. The switch basic

module may be damaged by detachment of the display and
connection part.

 Verify that the electrical installation meets locally or nationally

applicable safety regulations.

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 Keep the ventilation slits free to ensure good air circulation.
 Make sure there is at least 3.94 inches (10 cm) of space in front of the

ventilation slits of the housing.

 The device must be installed in the vertical position (see figure 1).
 If you are operating the device in a living area or office environment,

only operate it 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 ambient air at a distance of up to 2 inches (5 cm)
from the device) and at the specified relative humidity.

See “General technical data” on page 62.

 When you are selecting the installation location, make sure you

observe the climatic threshold values specified in the technical data.

 Use the device in an environment with a maximum pollution degree

that complies with the specifications in the technical data.

 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.

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Installation MS20/MS30

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 General safety instructions

You operate this device with electricity. Improper usage of the device
entails the risk of physical injury or significant property damage. Before
connecting any cable, read this document, and the safety instructions and
warnings.

See “Supply voltage” on page 5.

 General safety instructions

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

instructions and warnings.

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

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

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

Note: You will find additional warning information and security
instructions for the MICE media modules in the “Description and
Operating Instructions” supplied with every module.

 National and international safety regulations

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

 CE marking

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

2011/65/EU and 2015/863/EU (RoHS)
Directive of the European Parliament and of the Council on the restriction
of the use of certain hazardous substances in electrical and electronic
equipment.

2014/30/EU (EMC)
Directive of the European Parliament and of the Council on the
harmonisation of the laws of the Member States relating to
electromagnetic compatibility.

Installation MS20/MS30

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17

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

Hirschmann Automation and Control GmbH
Stuttgarter Str. 45-51
72654 Neckartenzlingen
Deutschland
www.hirschmann.com

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

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

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 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.

Installation MS20/MS30

18

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About this Manual

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

The Industrial HiVision network management software provides you with
additional options for smooth configuration and monitoring:

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

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19

Legend

The symbols used in this manual have the following meanings:

 Listing

 Work step

Subheading



20

Installation MS20/MS30

Release 13 09/2019

1 Description

12 34 1 2 3 4 5

MS20

MS30

1 1

2 2 2 2 2 2 2 23

1.1 General device description

Figure 1: MICE basic module equipped with media modules

1 - basic module
2 - media module
3 - slot for media module

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
 Temperature range
 Supply voltage range
 Certifications
 Software variant

The MS20/MS30 devices are designed for the special requirements of
industrial automation. They meet the relevant industry standards, provide
very high operational reliability, even under extreme conditions, and also
long-term reliability and flexibility.
The devices allow you to set up switched industrial Ethernet networks that
conform to the IEEE 802.3 standard.

The devices work without a fan.

The following installation options are available:

 simply snapping them onto a DIN rail

The redundancy concept allows the network to be reconfigured quickly.

Installation MS20/MS30

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21

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

 a Web browser
 Telnet
 network management software (e.g. Industrial HiVision)
 a V.24 interface (locally on the device)

The devices provide you with a large range of functions, which the manuals
for the operating software inform you about. You 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 addition, to the MS20/MS30 MICE range, of the RS20/RS30 Open Rail
range of switches, the MACH range of backbone switches, the BAT wireless
transmission system, the EAGLE security system, and products for the LION
control room, provides continuous communication across all levels of the
company.

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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.

Position Characteristic Charac-

1 to 4 Product MS20 Modular Switch without gigabit ports

5 - (hyphen) ­6 to 7 Number of 10/100 Mbit

ports

8 to 9 Number of 1000 Mbit

ports

10 Temperature range S Standard 0 °C ... +60 °C

11 Voltage range A 18 VDC ... 32 VDC

12 Specifications A CE, UL 508, ISA 12.12.01 Class I Division 2

13 Software variant E Enhanced

teristic
value

MS30 Modular Switch with gigabit ports

08 8 × 10/100 Mbit Ethernet
16 16 × 10/100 Mbit Ethernet
24 24 × 10/100 Mbit Ethernet
00 0 × 1000 Mbit Ethernet
02 2 × 1000 Mbit Ethernet

T Extended −40 °C ... +70 °C
E Extended −40 °C ... +70 °C, Conformal Coating

C 18 VDC ... 60 VDC
E 18 VDC ... 60 VDC / 6-pin

B CE, UL 508, ISA 12.12.01 Class I Division 2, GL,

E CE, UL 508, GL, EN 50121-4
H CE, UL 508, ISA 12.12.01 Class I Division 2, GL,

S CE, UL 508, GL, IEC 61850-3, IEEE 1613,

Y CE, UL 508
ZCE

P Professional

Feature

ATEX Zone 2

IEC 61850-3, IEEE 1613,EN 50121-4

EN 50121-4

Table 1: Combination options of the MS20/MS30 device versions

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23

1.3 Description of the device variants

The industrial ETHERNET series MICE (Modular Industrial Communication
Equipment) consists of a basic switch module and the media modules. These
devices can be managed. A basic module contains all the functions of this
industrial Switch, with the exception of the interfaces to the LAN that is
connected. Pluggable media modules provide these interfaces. They differ
with regard to the number of interfaces and the media type for connecting
segments. An expansion module enables you to add 2 slots for media
modules to the basic module.

For the sake of simplicity, the basic switch module with various plugged in
media modules will be referred to as MICE in this document.

 The MS20-... device variants are modular switches with up to 8, 16 or 24

* 10/100 Mbit/s Ethernet ports. You can choose the media for the ports via
the media modules.

 The MS30-... device variants are modular switches with up to 8, 16 or 24

* 10/100 Mbit/s Ethernet ports and up to 2 additional Gigabit ports (1000
Mbit/s Ethernet). You can choose the media for the ports via the media
modules.

The basic module of the MS20/MS30 contains all the function units, such as:
switch function, management function, redundancy function, display control,
voltage connection, management connection, adjustable controls, slots for
media modules.

Family Designed for

MS20 Larger numbers of ports, number of 100 Mbit ports desired, temperature range,

MS30 Larger numbers of ports and larger bandwidth requirement,

voltage range, certificates and software variant can be selected.

number of 100/1000 Mbit ports desired, temperature range, voltage range,
certificates and software variant can be selected.

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1.3.1 Number of ports and connections

 Device versions with 10/100 Mbit/s ports

MS20-0800..., MS20-1600..., MS20-2400...

Depending on the variant, the MS20 basic modules provide you with the
following number of slots for media modules and the following maximum
number of connectable network segments:

Basic module Number of slots for

MS20-0800... 2 8
MS20-1600... 4 16
MS20-2400... 6 24

a. Can be expanded to 24 ports with the MB20 extender module

4

3

2

1

10/100 Mbit/s media
modules

5

6 6 6 6

Max. possible number of connectible
10/100 Mbit/s network segments when
connecting 4-port media modules

a

MS20-0800...

MS20-1600...

MS20-2400...

Figure 2: Overview interfaces, display elements and controls of the MS20 -...

1 - Grounding screw
2 - Terminal block, V.24 port, USB port, DIP switch
3 - Key for display status
4 - Switch basic module MS20-...
5 - LEDs for device status, display status
6 - 4 slots for media modules MM2-... or MM3-... with 2-4 ports each

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5

4

6

11

12

3

2

1

10

9

8

7

Figure 3: Interfaces of the MS20-... and MS30-... on the bottom of the device

1 - Terminal block (power 2)
2 - DIP switch
3 - Terminal block (power 1)
4 - USB port
5 - V.24 port
6 - MICE MS20/30 switch basic module with 18 V DC ... 60 V DC voltage
range
7 - Terminal block (power 2)
8 - Terminal block (power 1)
9 - DIP switch
10 - USB port
11 - V.24 port
12 - MICE MS20/30 switch basic module with 18 V DC ... 32 V DC voltage
range

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4

3

2

1

5

Figure 4: Connections of the MS20-.../MS30-...E on the bottom of the device

1 - Terminal block 6-pin for power and signal contact
2 - DIP switch
3 - USB port
4 - V.24 port
5 - MICE MS20/30-...E... basic module with voltage range
18 V DC ... 60 V DC / 6-pin

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27

 Device variants with 1000 Mbit/s and 10/100 Mbit/s ports

MS30-2400...

MS30-0800...

MS30-1600...

5

7 7 7 7

4

2

1

6

3

MS30-0802..., MS30-1602..., MS30-2402...

Depending on the variant, the MS30 basic modules provide you with the
following number of slots for media modules and the following maximum
number of connectable network segments:

Basic module Number of

slots for
10/100
Mbit/S
media
modules

MS30-0802... 2 1 8 2
MS30-1602... 4 1 16
MS30-2402... 6 1 24 2

a. Can be expanded to 24 ports with the MB20 expansion module

Number of
slots for
1000 Mbit/
S media
modules

Max. possible
number of
connectable 10/100
Mbit/S network
segments when
connecting 4-port
media modules

a

Max. possible number
of connectable 1000
Mbit/s network
segments

2

Figure 5: Overview of interfaces, display and operating elements on the MS30

1 - Grounding screw
2 - Terminal block, V.24 port, USB port, DIP switch
3 - Slot for SFP module MM4-TX/SFP
4 - Key for display status
5 - Switch basic module MS30-...
6 - LEDs device status, display status
7 - 4 slots for media modules MM2-... or MM3-... with 2 to 4 ports each

The figure 3 shows the connections on the bottom side of the MS30.

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1.3.2 Media modules

The MICE media modules form the interface of the device to the LAN. They
can be attached in the

 Basic module MS20-...
 Basic module MS30-...

They differ with regard to the number of interfaces and the media type. The
different interfaces of the media modules provide you with the following
interface-specific functions:

 Specific functions of TP/TX interface

 Link Control
 Auto Polarity Exchange
 Autonegotiation
 Autocrossing (device may be connected with a crossed-over or an un-

crossed cable)

 Specific functions of F/O interface

 Link Down monitoring

 Transceiver-specific (AUI-specific) functions

 Collision recognition
 Collision test (SQE)
 Protection from permanent network connection (Jabber Control)
 DTE Power Monitor

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 MM2 media modules

MM2 media modules
Module type

MM2 - 4TX1 (- EEC) 4, RJ45 – – – –
MM2 - 2FLM4 – 2, ST – – –
MM2 - 4FXM3 – – 4, MTRJ – –
MM2 - 2FXM3 / 2TX1 2, RJ45 – 2, MTRJ – –
MM2 - 2FXM2 – – 2, DSC – –
MM2 - 2FXS2–––2, DSC–

TP ports 10/
100 Mbit/s

F/O port
multi-mode
10 Mbit/s

F/O port
multi-mode
100 Mbit/s

F/O port
single­mode 1300
nm, 100
Mbit/s

F/O port
single­mode 1550
nm, 100
Mbit/s

Table 2: Media connections per MM2 media modules (number and type)

5

6

6

1

2

3

4

Figure 6: Port assignment

1 - Port 1
2 - Port 2
3 - Port 3
4 - Port 4
5 - Illustration of the port numbers
6 - Bottom side of the device

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 MM3 media modules

MM3 media modules
Module type

MM3-4TX5 4, M12 – – – –
MM3-4FLM4 – 4, ST – – –
MM3-1FXM2/3TX1 3, RJ45 – 1, DSC – –
MM3-2FXM2/2TX1(-EEC) 2, RJ45 – 2, DSC – –
MM3-2FXM4/2TX1 2, RJ45 – 2, ST – –
MM3-4FXM2 – – 4, DSC – –
MM3-4FXM4 – – 4, ST – –
MM3-1FXS2/3TX1(-EEC) 3, RJ45 – – 1, DSC –
MM3-2FXS2/2TX1 2, RJ45 – – 2, DSC –
MM3-4FXS2 – – – 4, DSC –
MM3-1FXL2/3TX1 3, RJ45 – – – 1, DSC

TP ports 10/
100 Mbit/s

F/O port
multi-mode
10 Mbit/s

F/O port
multi-mode
100 Mbit/s

F/O port
single­mode 1300
nm, 100
Mbit/s

F/O port
single­mode 1550
nm, 100
Mbit/s

Table 3: Media connections per MM3 media modules (number and type)

5

6

1

2

4

3

6

Figure 7: Port assignment

1 - Port 1
2 - Port 2
3 - Port 3
4 - Port 4
5 - Illustration of the port numbers
6 - Bottom side of the device

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 MM22-T1T1T1T1 PoE media module

The MM22-T1T1T1T1 PoE media module (deeper module design)
supports Power over ETHERNET (PoE) according to IEEE 802.3af. It
allows the connection and remote supply of IP telephones (Voice over IP),
webcams, sensors, printer servers and WLAN access points via 10BASE­T/100BASE-TX, for example. With PoE, these terminal devices are
powered by the twisted-pair cable.

The MM22-T1T1T1T1 media module has four 10BASE-T/100BASE-TX
ports (RJ45 connections) for connecting network segments or PoE
terminal devices (PD, Powered Device) up to class 0 (or respectively
class 3).

The current is supplied on the free line pair (spare pairs); the individual
ports are not electrically insulated from each other.
The following conditions are met in accordance with IEEE 802.3af:

 Endpoint PSE
 Alternative B.

 MM4 media modules

The 4-port MM4-4TX/SFP media module has 4 TP interfaces and 4
sockets for SFP transceivers from Hirschmann.

The 2-port MM4-2TX/SFP media module has 2 TP interfaces and 2
sockets for SFP transceivers from Hirschmann.

The Gigabit slot of the MS30 device (slot on the left side next to the switch
basic module) supports 2 Gigabit ports.

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

Note: Only use Hirschmann SFP transceivers.

See “Media modules: Power consumption, Power output, operating
temperature surrounding air, order numbers” on page 73.

MM4 media modules
Module type

MM4 - 2TX/SFP 2, RJ45 2
MM4 - 4TX/SFP 4, RJ45 4

Table 4: Media connections per MM4 media module (number and type)

32

TP ports
10/100/1000

SFP ports
as alternatives to TP
ports

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Figure 8: Port assignment

1*

5

6

3*

2*

4*

6

1

2

3

4

1 - Port 1 (twisted pair)
2 - Port 2 (twisted pair)
3 - Port 3 (twisted pair)
4 - Port 4 (twisted pair)
1* - Port 1* (SFP slot, can be used as alternative to port 1)
2* - Port 2* (SFP slot, can be used as alternative to port 2)
3* - Port 3* (SFP slot, can be used as alternative to port 3)
4* - Port 4* (SFP slot, can be used as alternative to port 4)
5 - Representation of port numbers
6 - Bottom of device

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1.3.3 Digital I/O Module MM24

The Digital I/O Module MM24 allows the control of different actuators of the
system via 4 digital inputs and outputs.
For further information, see the user manual MICE digital I/O module MM24.

1.3.4 MB20 extender module

The MB20 extender module allows you to add 2 slots for media modules to
the MS20-1600/MS30-1602 basic modules.

Figure 9: MB20 extender module

1.3.5 SFP Transceiver

With the insertion of the SFP transceivers into the SFP slots, F/O ports are
available to you.
SFP transceivers allow you to use optical interfaces on your device (Fast
Ethernet and Gigabit Ethernet SFP transceivers).

See “Accessories” on page 77.

SFP stands for Small Form-factor Pluggable and is also referred to as mini­GBIC (GigaBit Interface Converter).
The Fast Ethernet media module MM20-Z6Z6Z6Z6 has 4 SFP slots (100
Mbit/s).
The Gigabit Ethernet media modules MM4-4TX/SFP and MM4-2TX/SFP
have 4 or 2 TP interfaces and 4 or 2 slots (1000 Mbit/s).
By inserting the SFP transceivers, you deactivate the corresponding TP
interface.

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1.4 Ethernet ports

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

“Pin assignments” on page 37

1.4.1 10/100/1000 Mbit/s twisted pair port

The 10/100/1000 Mbit/s twisted pair port offers you the ability to connect
network components according to the IEEE 802.3 10BASE-T/100BASE-TX/
1000BASE-T standard.
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

State on delivery: autonegotiation.
The socket housing is electrically connected with the front panel.

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1.4.2 10/100 Mbit/s twisted pair port

This port is an RJ45 socket.
The 10/100 Mbit/s twisted pair port offers you the ability 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

Default setting: Autonegotiation activated except for the HIPER-Ring ports:
100 Mbit/s, full duplex.
The port housing is electrically connected to the bottom panel.

1.4.3 10/100 Mbit/s PoE port

The 10/100 Mbit/s PoE port allows you to connect network components as a
PoE voltage sink according to the standard IEEE 802.3 10BASE-T/
100BASE-TX and IEEE 802.3af.
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

Default setting: Autonegotiation activated except for the ring ports:
100 Mbit/s, full duplex.
The socket housing is electrically connected with the front panel.
The PoE voltage is supplied via the free wire pairs (spare-pair powering).

1.4.4 1000 Mbit/s F/O port

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

 Autonegotiation
 Full duplex mode

Delivery state: autonegotiation active

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1.4.5 100 Mbit/s F/O port

1
2
3
4
5
6
7
8

1

23

4

This port is an MTRJ, ST, or DSC socket.
The 100 Mbit/s F/O port offers you the ability to connect network components
according to the IEEE 802.3 100BASE-FX standard.
This port supports:

 Full or half duplex mode

Default setting: Full duplex

1.4.6 Pin assignments

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

a. Phantom supply
b. Spare pair supply

MDI mode

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

MDI-X mode

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

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

PSE

a

a

a

b

b

a

b

b

a

a

a

b

b

a

b

b

M12 4-pin (D coded) Pin Data PoE

1 TX+ Positive V
2 RX+ Negative V
3TX− Positive V
4RX− Negative V

PSE

PSE

PSE

PSE

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

18

2

36

7

45

3

2

7

6

5

4

8

1

11

10

15

14

13

12

9

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

PSE

PSE

PSE

PSE

1.5 AUI port

The housing of the Sub-D plug is electrically isolated from the lower panel of
the device.
The AUI (Attachment Unit Interface) port offers you the opportunity to
connect a device via an AUI cable according to IEEE 802.3.
This port supports:

 SQE test
 DTE Power Monitor

Default setting: SQE test function and DTEPower monitor function is not
active.

Figure 10: Pin assignment of an AUI interface

38

1 - Pin 1: Shielding CI
2 - Pin 2: Output CI-A
3 - Pin 3: Input DO-A
4 - Pin 4: Shielding DI
5 - Pin 5: Output DI-A
6 - Pin 6: GND
7 - Pin 7: Not contacted
8 - Pin 8: Shielding CO

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9 - Pin 9: Output CI-B
10 - Pin 10: Input DO-B
11 - Pin 11: Shielding DO
12 - Pin 12: Output DI-B
13 - Pin 13: Voltage 12 V
14 - Pin 14: Shielding 12 V
15 - Pin 15: Not contacted

Connect the ports of the media modules plugged into the basic module as
required in order to set up your industrial Ethernet or expand your existing
network.

 Install the data lines according to your requirements.

1.6 Display elements

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

1

2

1

3 33 3

Figure 11: Display elements on MS20/MS30

1 - Device status
2 - Display status
3 - Port status

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1.6.1 Device status

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

P – Power (green LED)

Glowing green Internal supply voltage present.
Not glowing Internal supply voltage is too low.

P1 – Power 1 (green LED)

Glowing green Supply voltage 1 is present.
Not glowing Supply voltage 1 is less than 18 V.

P2 – Power 2 (green LED)

Glowing green Supply voltage 2 is present.
Not glowing Supply voltage 2 is less than 18 V.

RM – Redundancy Manager (green/yellow LED)

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

RUN – BOOT/RUN (green LED)

Glowing green System is ready for operation.
Flashing green System is booting.
Not glowing System is in reset mode.

RL1 – Relay 1, signal contact (red/yellow LED)

Glowing red Signal contact 1 is open, i.e. it is reporting an error.
Glowing yellow Signal contact 1 is open, the "Manual Setting" is active.
Not glowing Signal contact 1 is closed, i.e. it is not reporting an error.

RL2 – Relay 2, signal contact (red/yellow LED)

Glowing red Signal contact 2 is open, i.e. it is reporting an error.
Glowing yellow Signal contact 2 is open, the "Manual Setting" is active.
Not glowing Signal contact 2 is closed, i.e. it is not reporting an error.

RUN, 1 – display saving processes of the AutoConfiguration Adapter (ACA)

Flashing alternately Error during saving process.
LED's flash synchronously

2× a second
LED's flash synchronously

1× a second

connected to the ring port).

Loading configuration from the ACA.

Saving the configuration in the ACA.

If the manual adjustment is active on the signal contact, then the error display
is independent of the setting of the signal contact.

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1.6.2 Display status

Every media module has one LED per port. The meaning of this port status
LED depends on the setting on the basic module. You define the display
meaning with the "SELECT" button on the basic module.
 Press the button for approx. 2 seconds to switch the meaning of the

display. If the button is not pressed for approx. 20 seconds, the the display
status changes back to "L/D".

L/D – data, link status (green LED)

Glowing green The port LEDs of the media modules display the connection

FDX – full duplex (green LED)

Glowing green The port LEDs of the media modules display the half-duplex or

1000 – 10/100/1000 Mbit/s (green LED)

Glowing green The port LEDs of the media modules display the set

AN – autonegotiation (green LED)

Glowing green The port LEDs of the media modules display the port

RING – ring port (green LED)

Glowing green The port LEDs of the media modules display HIPER-Ring

STBY – stand-by (green LED)

Glowing green The port LEDs of the media modules display the assignment to

TEST – LED test (green LED)

Glowing green The status, display status and port status LED test is active.

TP – twisted pair / fiber optic (green LED)

Glowing green The port LEDs of the media modules display the media type.

All display status LEDs (green LEDs)

Flashing in sequence Initialization phase after restart.

2 – PoE status (green/yellow LED)

Glowing green The port LEDs of the media modules display the Power over

Not glowing - No PoE port or PoE disabled.

3 (green LED)

status.

full duplex connection status.

transmission speed.

configuration type.

assignment.

a redundant coupling of network segments.

The P1/P2 LEDs glow green.
The "RM" LED status flashes green/yellow.
The RELAY1/RELAY2 status LEDs flash yellow/red.
The display status LEDs flash green.
The port status LEDs of the media modules flash green/yellow.

ETHERNET status.

- PoE status "fault".

Service LED

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1.6.3 Port status

These LED's display port-related information. You set the content of the
information with the button on the basic module (see on page 41 “Display

status”).

1 to 4 – data, link status (green/yellow LED)

Not glowing For MM20-A8A89999SAHH (AUI): No valid connection. No

Glowing green For MM20-A8A89999SAHH (AUI): Valid connection. DTE

Flashing green (1× a period) Port is switched to stand-by (Port 1).
Flashing green (3× a period) Port is switched off.
Flashing yellow Data reception.

1 to 4 – FDX (green/yellow LED)

Not glowing Half-duplex is active.
Glowing green Full-duplex is active.

1 to 4 – 1000 (green/yellow LED)

Not glowing 10 Mbit/s is active.
Glowing green 100 Mbit/s is active.
Glowing yellow 1000 Mbit/s is active.

1 to 4 – AUTONEG (green/yellow LED)

Glowing green Autonegotiation is active.

1 to 4 – RING PORT (green/yellow LED)

Glowing green This port is assigned to the HIPER-Ring.

1 to 4 – STAND-BY (green/yellow LED)

Glowing green Connection port for the data line.
Glowing yellow Connection port for the control line.
Flashing green/yellow No stand-by partner available.

TP/FO – twisted pair / fiber optic (green/yellow LED)

Glowing green The port LEDs of the media modules display the twisted pair

Glowing yellow The port LEDs of the media modules display the F/O ports.

PoE status (green/yellow LED)

Not glowing No PoE port or PoE disabled; PoE status "fault".
Glowing yellow PoE port searching for terminal device (PD); PoE status

Glowing green PoE port supplying terminal device (PD); PoE status

1 to 4 – LED TEST (green/yellow LED)

Not glowing LED defective.
Flashing green/yellow LED test is active.

DTE voltage at the port.

voltage present at the port.

ports.

"searching".

"Delivering Power".

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2 Installation

The devices have been developed for practical application in a harsh
industrial environment.
Hirschmann supplies the device ready for operation.

Perform the following steps to install and configure the device:

 Checking the package contents
 Installing media modules
 Filling out and attaching labels
 Installing an SFP transceiver (optional)
 Adjusting the DIP switch settings on the basic module (4-pin DIP switch)
 Adjusting the DIP switch settings on the MS20/MS30-...E... basic module

(3-pin DIP switch)

 Adjusting the DIP switch settings on the MM20-A8A89999SAHH media

module

 Connecting the MM22-T1T1T1T1 PoE media module
 Terminal block for supply voltage and signal contact
 Connecting the terminal blocks, start-up procedure
 Installing and grounding the device
 Connecting data cables
 Assembly of the MB20 extender module
 Defining the meaning of the display LEDs

2.1 Checking the package contents

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

“Scope of delivery” on page 76.

 Check the individual parts for transport damage.

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43

2.2 Installing media modules

On delivery, the device is ready for operation.
You can install and remove media modules during running operation.

 To attach a media module, first remove the protective cap on the plug.
 Plug the media module onto the plug.
 Fasten the 4 screws at the corners of the media module.
 Fit the media modules in sequence from left to right.
 Check whether the switch default settings match your requirements.

2.3 Filling out and attaching labels

The labels included in the scope of delivery help you to organize your
network installation clearly.

The large label areas enable you to designate the modules and uniquely
assign the devices to be connected. You can print them, write on them and
exchange them at any time.

Figure 12: Attaching the labels

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Figure 13: Labels for basic modules and media modules

5

1

2

3

4

10

6

7

8

9

11

1 - MICE basic module
2 - Lable for the name of the module
3 - Lable for MAC address of the device
4 - Lable for IP address of the device
5 - Lable for other entries on your demand
6 - MICE media module
7 - Lable for the name of the media module
8 - Lable for the port assignment of the media module (port 1)
9 - Lable for the port assignment of the media module (port 1)
10 - Lable for the port assignment of the media module (port 1)
11 - Lable for the port assignment of the media module (port 1)

 Attach the labels included in the delivery to the basic module and the

media modules as required.

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2.4 Installing an SFP transceiver (optional)

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

See “Accessories” on page 77.

Proceed as follows:

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

2.5 Adjusting the DIP switch settings on the basic module (4-pin DIP switch)

The 4-pin DIP switch on the bottom panel of the basic module provides you
with the following options:

DIP switch Function Delivery state

RM (redundancy
manager)

Ring port

Stand-by

SW Configuration /
DIP Configuration

a. You use the “RM” and “Stand-by” switches on the 4-pin DIP switch to switch the following

b. Using the “Ring port” switch on the 4-pin DIP switch you select the ring ports for the HIPER-

a

b

a

With the redundant coupling of rings, you

functions on and off (see table 6)

Ring (see table 5)

With the HIPER-Ring function switched
on, switch the RM (Redundancy Manager)
function on and off (see “User Manual
Redundancy Configuration”).

Selection of the ports for the HIPER-Ring
MS30: In the ON position, ports 1 and 2 in
module 2 are for connecting the HIPER­Ring.
MS20: In the ON position, port 1 from
modules 1 and 2 are for connecting the
HIPER-Ring.

assign the redundancy function to the
MICE in the redundant line (see “User
Manual Redundancy Configuration”).

OFF: Give the software configuration
precedence over the DIP switch position.
In this case, the other switch positions are
meaningless.

OFF position (RM function
deactivated)

OFF position (ports 1 and 2 in
module 1 form the connection
for the HIPER-Ring).

OFF position (normal function)

OFF position (SW configuration
has precedence)

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“Ring-Port” switch

OFF ON

5 6

4

1

2

3

Position

OFF MS20 Module 1/Port 1 and Module 1/Port 2
ON MS20 Module 1/Port 1 and Module 2/Port 1
OFF MS30 Module 1/Port 1 and Module 1/Port 2
ON MS30 Module 2/Port 1 and Module 2/Port 2

MICE device Ring ports for the HIPER-Ring

Table 5: Selecting ring ports for the HIPER-Ring

Switch
RM
Position

OFF OFF on on off off see

ON OFF on on on off see

OFF ON on on off on see

ON ON off off off off

Switch
Stand-by
Position

Ring re­dundanc
y

Coupling
switch

Ring
Manager

Coupling
Manager

Ring
port

abov
e

abov
e

abov
e

Control
port

Module 1/
port 3
(MS20)
module 2/
port 3
(MS30)

Table 6: Switching redundancy mode and stand-by on/off

Figure 14: 4-pin DIP switch on the MICE basic module MS20-.../MS30-...

1 – Switch 1, function: Redundancy Manager (RM)
2 – Switch 2, function: ring port
3 – Switch 3, function: stand-by
4 – Switch 4, function: Configuration
5 – Switch position OFF
6 – Switch position ON

Coupling
port

Module 1/
Port 4
(MS20)
Module 2/
port 4
(MS30)

 Before starting operation of the device, check whether the default settings

of the DIP switch correspond to your requirements.

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2.6 Adjusting the DIP switch settings on the MS20/MS30-...E... basic module (3-pin DIP switch)

The 3-pin DIP switch on the bottom panel of the basic module gives you the
following options:

DIP switch Function State on delivery

RM (redundancy
manager)

Ring port

Stand-by

a. You can use the "RM" and "Stand-by" switches on the 3-pin DIP switch to switch the

b. All three DIP switches ON: Software configuration
c. The "Ringport" switch on the 3-pin DIP switch enables you to select the ring ports for the

a,b

b,c

a,b

following functions on and off (see table 6)

HIPER-Ring (see table 5)

When the HIPER-Ring function is
switched on, you can switch the RM
(Redundancy Manager) function on and
off (see "User Manual - Redundancy
Configuration").

Selecting the ports for the HIPER-Ring
MS30: In the ON position, ports 1 and 2 in
module 2 form the connection for the
HIPER-Ring.
MS20: In the ON position, port 1 from
modules 1 and 2 form the connection for
the HIPER-Ring.

With the redundant coupling of rings, you
assign the redundancy function to the
MICE in the redundant line (see "User
Manual - Redundancy Configuration").

OFF position (RM function
deactivated)

OFF position (ports 1 and 2
in module 1 form the
connection for the HIPER­Ring).

OFF position (normal
function)

Switch "Ring port" MICE device Ring ports for the HIPER-Ring

OFF MS20 Module 1/ port 1 and module 1/ port 2
ON MS20 Module 1/ port 1 and module 2 / port 1
OFF MS30 Module 1/ port 1 and module 1 / port 2

Table 7: Selecting ring ports for the HIPER-Ring

RM
switch
position

OFF OFF on on off off see

ON OFF on on on off see

OFF ON on on off on see

Stand-by
switch
position

Ring
redund
ancy

Coup­ling
switch

Ring
manager

Coupling
manager

Ring
port

above

above

above

Control
port

Module 1/
port 3
(MS20)
module 2/
port 3
(MS30)

Table 8: Switching redundancy mode and stand-by on/off

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Coup­ling port

Module 1/
port 4
(MS20)
module 2/
port 4
(MS30)

4

OFF ON

1

5

6

7 8

Figure 15: 3-pin DIP switch on the MICE basic module MS20/MS30-...E...

1 - Switch 1, position ON, Function: Redundancy Manager (RM)
2 - Switch 2, position ON, Function: Mod. 1 Port 1 & Mod. 2 Port 1
3 - Switch 3, position ON, Function: Stand-by
4 - Switch 1, position OFF, Function: ­5 - Switch 2, position OFF, Function: Ring Port: Mod. 1 Port 1 & 2
6 - Switch 3, position OFF, Function: ­7 - Switch position OFF
8 - Switch position ON

2

3

 Before starting operation of the device, check whether the default settings

of the DIP switch correspond to your requirements.

2.7 Adjusting the DIP switch settings on the
MM20-A8A89999SAHH media module

With the 3-pin DIP switch in the bottom panel of the MM20-A8A89999SAHH
media module, you enter settings for the SQE test function and for monitoring
the DTE voltage.

Note: Before starting operation, check whether the device in question
operates the transceiver with or without an SQE test.

 Before starting operation of the device, check whether the default settings

of the DIP switch correspond to your requirements.

2.8 Connecting the MM22-T1T1T1T1 PoE media module

The MM22-T1T1T1T1 PoE media module with PoE voltage (48 V DC safety
extra-low voltage) is supplied with power via an external power supply unit.
The PoE voltage is fed into the 3-pin terminal block of the PoE media module.

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The twisted-pair cables at ports 1 to 4 are supplied with PoE voltage via the
spare pairs (pins 4 & 5 and 7 & 8 of the RJ45 sockets).

Note: Only use the Hirschmann RPS60/48V EEC power supply unit to
supply the PoE voltage.

 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” 2250 V DC for 1 min.).

 Output power < 100 W.
 Current limitation < 2 A.
 The power supply unit and the PoE media module form a limited power

source according to IEC60950-1.

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

for the connected PDs.

Power supply unit RPS60/48V EEC fulfills these requirements.

Note: The RPS60/48V EEC power supply unit does not fulfill the
requirements according to Germanischer Lloyd, criterion EMC1, relating to
conducted emissions on the 230 V AC side. If this requirement must be
fulfilled, connect a corresponding power supply unit that fulfills both this
requirement and the basic requirements.

 Connect the PoE voltage to the 3-pin terminal block included in the scope

of delivery, as shown in the following diagram.
Make sure the following requirements are met:

 Supply line length < 3 m.
 Supply line cross section is suitable for 1.5 A.

Figure Pin Assignment

1
2
3

Table 9: Pin assignment of the 3-pin terminal block

1+ 48 V
2—
30 V

 Mount the terminal block for the PoE supply voltage on the bottom of the

PoE module using the snap lock. Make sure it latches securely in place.

Note: Use 4-pair twisted pair cables to connect the terminal devices. Only
connect terminal devices that conform to IEEE 802.3af.

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2.9 Terminal block for supply voltage and signal contact

The supply voltage and the signal contacts are connected via a 4-pin terminal
block and a redundant 4-pin terminal block with a snap lock.

2.9.1 Supply voltage

The supply voltage can be connected redundantly. Both inputs are
uncoupled. There is no distributed load. With redundant supply, the power
supply unit with the higher output voltage supplies the device on its own. The
supply voltage is electrically isolated from the housing.

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

2.9.2 Signal contacts

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

A break in contact is used to report the following conditions via the potential­free signal contact (relay contact, closed circuit):

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

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

 A continuous detected error in the device (internal supply voltage).
 The detected error of the link status of at least one port. The report of the

link status can be masked by the Management for each port. In the default
state, link status monitoring is deactivated.

 The temperature of the device is outside the range specified in the

threshold values.

 The removal of the ACA.

The following condition is also reported in RM mode:

 Ring redundancy guaranteed. By default, there is no ring redundancy

monitoring

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2.10 Connecting the terminal blocks, start-up procedure

 Pull the terminal block off the device and connect the voltage supply lines

and the signal lines.

2.10.1 Terminal blocks on MS20/MS30-...A... and MS20/ MS30-...C...

Products with voltage range A or C (product code position 15—see table 1)
have two 4-pin terminal blocks.

Note: The maximum accaptable wire size for the terminal blocks is 2.5 mm
(0.004 in

2

) or AWG 12.

1

4

2

2

3

Figure 16: Pin assignment of the 4-pin terminal blocks

1 - MS20/30 switch basic module with 18 V DC ... 60 VDC voltage range
2 - Power/signal contact 1:
Pin 1 =+24 V (P1), Pin 2 =0 V, Pin 3, 4 =Relay 1
3 - Power/signal contact 2:
Pin 1 =+24 V (P2), Pin 2 =0 V, Pin 3, 4 =Relay 2
4 - MS20/30 switch basic module with 18 to 32 VDC voltage range
5 - Power/signal contact 1:
Pin 1 =+24 V (P1), Pin 2 =0 V, Pin 3, 4 =Relay 1
6 - Power/signal contact 2:
Pin 1 =+24 V (P2), Pin 2 =0 V, Pin 3, 4 =Relay 2

5

6

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2.10.2 Terminal block on MS20/MS30-...E...

Products with voltage range E (product code position 15 – see table 1 on

page 23) have one 6-pin terminal block.

1

2

3

4

5

+24 V (P1)

0 V

Relay

0 V

+24 V (P2)

7

6

7

8

Figure 17: Pin assignment of the 6-pin terminal block

1 - Pin 1 = +24V (P1)
2 - Pin 2 = Relay
3 - Pin 3 = 0 V
4 - Pin 4 = 0 V
5 - Pin 5 = Relay
6 - Pin 6 = +24V (P2)
7 - Terminal block for power and signal contact
8 - MICE MS20/30-...E... switch basic module with 18 V DC ... 60 V DC
voltage range /6-pin

2.10.3 Operating the device

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

bottom of the device using the snap locks. Make sure that the snap lock
snaps into place.

By connecting the voltage supply via the terminal blocks, you start the
operation of the device.

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2.11 Installing and grounding the device

2.11.1 Installing the device onto the DIN rail

Verify that there is at least 4 in (10 cm) of space above and below the device.
The overall shield of a connected shielded twisted pair cable is connected to
the ground connector on the front panel as a conductor.

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

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

of the device against the DIN rail.

 Snap in the device by releasing the rail lock slide.

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2.11.2 Grounding the device

The lower panel of the device casing is grounded via the DIN rail and
optionally by means of the separate ground screw.

See figure 2 on page 25.

2.12 Connecting data cables

2.12.1 Twisted Pair ports

In general, adhere to the following 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.

 Used shielded cables (SF/UTP cables as per ISO/IEC 11801:2002).

 Connect the data cables according to your requirements.

2.12.2 Optical fiber ports

Verify that you connect LH ports only with LH ports, SX ports only with SX
ports, and LX ports only with LX ports.
 Connect the data cables according to your requirements.

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2.13 Assembly of the MB20 extender module

1

2

The MB20 extender module allows you to expand the MS20-1600 and
MS30-1602 basic module with two sockets for media modules. You can
install the MB20 extender module in running operation.

 On the right side of the basic module, loosen the screws at the top and

bottom (1-3 revolutions).

 Take off the side panel.
 If you have not already done so, mount the basic module on the DIN rail.
 Push the MB20 extender module on the DIN rail to the basic module until

the modules are plugged together.

 Tighten the screws on the top and bottom of the basic module again.

2.14 Defining the meaning of the display LEDs

You use the "SELECT" button on the basic module to define the meaning of
the LEDs of the media modules. You press the button to switch to the next
display meaning. The display status LEDs of the basic module show the
current meaning of the port LEDs of the media modules.

See “Display elements” on page 39.

Figure 18: "SELECT" button on the MICE basic modules

1 - Display LEDs
2 - “SELECT” key

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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 6 options for configuring IP addresses:

 Entry via V.24 connection
 Entry using the HiDiscovery protocol via the application HiDiscovery or

Industrial HiVision

 Configuration via BOOTP
 Configuration via DHCP
 Configuration via DHCP Option 82
 Auto Configuration 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
 Management password:

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

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

All other ports: autonegotiation

 Redundancy manager switched off

(DIP switch RM and Stand-by: ON)

 Stand-by coupling switched off

(DIP switch RM and Stand-by: ON)
Port 3 = control port, port 4 = coupling port for redundant ring coupling

 Rapid Spanning Tree: on

 USB interface

The USB socket has an interface for the local connection of an
AutoConfiguration AdapterACA 21-USB. It is used for saving/loading the
configuration and for updating the software.

Contact number Signal name

1VCC
2 - Data
3 + Data
4 Ground

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 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 appropriate terminal emulation) or an AutoConfiguration Adapter
ACA11. 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 DB9

Pin 6
Pin 1

CTS
n.c.
TX
GND
RX
RTS

1
2
3
4
5
6

Pin 5
Pin 8

Pin 1

2
3

5

Figure 19: Pin assignment of the V24 interface

Note: You will find the order number for the terminal cable, which is
ordered separately, in the Technical Data section (see on page 62

“Technical data”).

 Monitoring the ambient air temperature

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

See “General technical data” on page 62.

The ambient air temperature is the temperature of the air at a distance of
2 in (5 cm) from the device. It depends on the installation conditions of the
device, e.g. the distance from other devices or other objects, and the
output of neighboring devices.
The temperature displayed in the CLI and the GUI is the internal
temperature of the device. It is up to 68 °F (20 °C) higher than the ambient
temperature. This depends on the configuration of your device.

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4 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 are continually working on improving and developing their

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

Note: You will find information about the complaints and returns procedures
on the Internet under http://www.beldensolutions.com/en/Service/Repairs/

index.phtml .

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5Disassembly

5.1 Removing the device

Proceed as follows:

 Disconnect the data cables.
 Disable the supply voltage.
 Disconnect the terminal blocks.
 Disconnect the grounding.
 To remove the device from the DIN rail, press the device downwards and

pull it out from under the DIN rail.

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5.2 Removing an SFP transceiver (optional)

1

2

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

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6 Technical data

 General technical data

Dimensions
W× H× D

MS20-0800...
MS30-0802...
MS20-1600...
MS30-1602...
MS20-2400...
MS30-2402...

Weight MS20-0800...

MS30-0802...
MS20-1600...
MS30-1602...
MS20-2400...
MS30-2402...

125 mm × 133 mm × 100 mm (140 mm
163 mm × 133 mm × 100 mm (140 mm
202 mm × 133 mm × 100 mm (140 mm
240 mm × 133 mm × 100 mm (140 mm
278 mm × 133 mm × 100 mm (140 mm
316 mm × 133 mm × 100 mm (140 mm

610 g (700 g
740 g (830 g
880 g (970 g
1010 g (1100 g
1030 g (1120 g
1160 g (1250 g

a

)

a

)

a

)

a

)

a

)

a

)

a

)

a

)

a

)

a

)

a

)

a

)

a. At 48 V DC voltage supply (voltage range C (18 V DC ... 60 V DC). See table 1 on page 23).

Power supply Supply voltage 18 to 32 V DC (voltage range A) or

18 to 60 V DC (voltage range C)
Safety extra-low voltage (SELV/PELV) redundant
inputs disconnected. Relevant for North America:
Nec Class 2 power source max. 5A.

Overload current

Non-replaceable fuse

protection at input
Insulation voltage

between supply
voltage
connections and
casing

Peak inrush
current

Devices with input
voltage range:
18 V DC to 32 V DC
18 V DC bis 60 V DC

<14A
for 1 ms

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

Signal contact Switching current max. 1 A, SELV

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

Environment Storage temperature

(ambient air
temperature)
Humidity
Atmospheric pressure

Operating

Product code S

temperature

Standard: −40 °F ... +158 °F (−40 °C ... +70 °C )
Extended: −40 °F ... +185 °F (−40 °C ... +85 °C )
10% to 95% (non-condensing)
Up to 2000 m (795 hPa), higher altitudes upon
request

Standard: +32 °F ... +140 °F (0 °C ... +60 °C)
Extended −40 °F ... +158 °F (−40 °C ... +70 °C )

T

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

E

with Conformal Coating
Pollution degree 2
Protection classes Laser protection

Level of protection

Class 1 according to EN 60825-1 (2001)

IP20

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124

4.88

133

5.24

29

68

2.68

2.68

0.16

38

1.5

MS20-0800 MS20-1600 MB20

4

201

29

68

106

4.17

145

5.71

77

3.03

29

21

0.83

29

38

68

1.14

1.5

2.68

1.14

1.14

7.91

mm

inch

1.14

21

0.83

29

1.14

21

0.83

29

1.14

133

5.24

133

5.24

0.16

4

0.16

4

0.16

4

0.16

4

 Dimension drawings

Figure 20: Dimensions of base module MS20 variants and extender module

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63

163

133

29

68

4

38

MS30-0802

MS30-1602 MB20

133

4

4

240

21

29

29

68

106

145

133

4

4

77

21

29

29

21

29

38

68

16

16

mm

inch

1.5

0.63

2.68

1.14

0.83

1.14

0.63

1.5

5.71

4.17

2.68

1.14

2.68

1.14

0.83

0.83

1.14

1.14

6.42

5.24

5.24

5.24

9.45

0.16

0.16

0.16

3.03

0.16

0.16

Figure 21: Dimensions of base module MS30 variants and extender module

64

Installation MS20/MS30

Release 13 09/2019

94

3.7

2.87

73

136

5.35
115

4.53

mm
inch

5.24

133

1.5

38

MM... 24 V

Figure 22: Dimensions of media modules

MM... 48 V

5.24

1.5

133

38

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65

66

 EMC and immunity

EMC interference
emission

Standard
applications

a

Marine
applications

b

Railway
applications
(trackside)

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

a. EN 61131-2, CE, FCC – applies to all devices
b. Merchant Navy (GL, ABS, DNV, KR, LR, RINA) – applies to devices with the certification codes B, E, H, S
c. EN 50121-4 – applies to devices with the certification codes E, H, S
d. EN 61850-3, IEEE 1613 – applies to devices with the certification codes H, S

Installation MS20/MS30

Release

13

09/2019

c

Sub-station
applications

d

Installation MS20/MS30

Release

EMC interference
immunity

13

09/2019

Electrostatic discharge

EN 61000-4-2

Contact discharge ± 4 kV ± 6 kV ± 6 kV ± 8 kV

Standard
applications

a

Marine
applications

b

Railway
applications
(trackside)

c

Sub-station
applications

IEEE C37.90.3
EN 61000-4-2

Air discharge ± 8 kV ± 8 kV ± 8 kV ± 15 kV

IEEE C37.90.3

Electromagnetic field

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

Fast transients (burst)

EN 61000-4-4

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

IEEE C37.90.1
EN 61000-4-4

Data line ±4kV ±4kV ±4kV ±4kV

IEEE C37.90.1

Voltage surges - DC supply connection

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

Conducted disturbances

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

d

67

68

EMC interference
immunity

Damped vibration – DC supply connection

EN 61000-4-12

line/ground ———2.5kV

IEEE C37.90.1
EN 61000-4-12

line/line ———1 kV

IEEE C37.90.1

Damped oscillation - data line

EN 61000-4-12

line/ground ———2.5kV

IEEE C37.90.1
EN 61000-4-12 line/line ———± 1kV

Pulse magnetic fields

EN 61000-4-9 — — 300 A/m —

a. EN 61131-2, CE, FCC – applies to all devices
b. Merchant Navy (GL, ABS, DNV, KR, LR, RINA) – applies to devices with the certification codes B, E, H, S
c. EN 50121-4 – applies to devices with the certification codes E, H, S
d. EN 61850-3, IEEE 1613 – applies to devices with the certification codes H, S

Standard
applications

a

Marine
applications

b

Railway
applications
(trackside)

c

Sub-station
applications

Installation MS20/MS30

Release

d

13

09/2019

Installation MS20/MS30

Release

Stability Standard

13

09/2019

IEC 60068-2-6, test Fc Vibration — 2 Hz ... 13.2 Hz

applications

a

Marine
applications

Railway

b

applications
(trackside)

c

——

with

0.04 in. (1 mm)
amplitude

— — — 2 Hz ... 9 Hz with

5 Hz ... 8.4 Hz with

0.14 in. (3.5 mm)
amplitude

8.4 Hz ... 150 Hz
with 1 g

5 Hz ... 8.4 Hz with

0.14 in. (3.5 mm)
amplitude

8.4 Hz ... 150 Hz
with 1 g

5 Hz ... 8.4 Hz with

0.14 in. (3.5 mm)
amplitude

8.4 Hz ... 150 Hz
with 1 g

— — — 200 Hz ... 500 Hz

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

a. EN 61131-2, CE, FCC – applies to all devices
b. Merchant Navy (GL, ABS, DNV, KR, LR, RINA) – applies to devices with the certification codes B, E, H, S
c. EN 50121-4 – applies to devices with the certification codes E, H, S
d. EN 61850-3, IEEE 1613 – applies to devices with the certification codes H, S

Sub-station
applications

d

0.12 in. (3 mm)
amplitude

5 Hz ... 8.4 Hz with

0.14 in. (3.5 mm)
amplitude

9 Hz ... 200 Hz
with 1 g

with 1.5 g

69

 Network range

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

AU port

Length of an AUI cable max. 50 m

Table 10: AUI port

10/100/1000 Mbit/s twisted pair port

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

Product
code

-F4 MM 820 nm 50/125 µm 0-9.5 dB 0-2.1 km 3.0 dB/km 400 MHz*km

-F4 MM 820 nm 62.5/125 µm 0-12.5 dB 0-3.0 km 3.2 dB/km 200 MHz*km

Table 11: F/O port 10BASE-FL

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

Wave
length

Fiber System

attenua­tion

Example
for F/O
line

a

length

Fiber
attenua­tion

BLP/
dispersion

Pro­duct
code

-M2,

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

-M4

-M2,

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

-M4

-S2 SM 1300 nm 9/125 µm 0-16 dB 0-30 km 0.4 dB/km 3.5 ps/(nm*km)

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

-P4 MM POF 650 nm 980/1000 µm 0-15.5 dB 0-65 m 200 dB/km 10 MHz*km

-P4 MM HCS 650nm 200/230 µm 0-7 dB 0-140 m 10 dB/km 17 MHz*km

-P9 MM POF 650 nm 980/1000 µm 0-14.0 dB 0-55 m 200 dB/km 10 MHz*km

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

Wave
length

Fiber System

attenua­tion

Example
for F/O line

a

length

Fiber
attenua­tion

BLP/
dispersion

Table 12: F/O port 100BASE-FX

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

Installation MS20/MS30

70

Release 13 09/2019

Product
code
M-FAST-

Wave
length

Fiber System

attenua­tion

Example
for F/O line

a

length

Fiber
attenua­tion

BLP/
dispersion

SFP-...

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

-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

b

18 ps/(nm×km)

Table 13: 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
M-SFP-...

Wave
length

Fiber System

attenua­tion

Example
for F/O line

a

length

Fiber
attenua­tion

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

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

-LX/LC... MM 1310 nm

-LX/LC... MM 1310 nm

d

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

c

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

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

c

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

a. including 3 dB system reserve when compliance with the fiber data is observed
b. Using the bandwidth length product is inappropriate for expansion calculations.
c. 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)

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

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Product
code
M-SFP­BIDI...

Type A
LX/LC
EEC

Type B
LX/LC
EEC

Type A
LH/LC
EEC

Type B
LH/LC
EEC

Wave
length
TX

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

SM 1550 nm 1310 nm 9/125 µm 0-11 dB 0-20 km 0.25 dB/km 19 ps/(nm×km)

LH 1490 nm 1590 nm 9/125 µm 5-24 dB 23-80 km 0.25 dB/km 19 ps/(nm×km)

LH 1590 nm 1490 nm 9/125 µm 5-24 dB 23-80 km 0.25 dB/km 19 ps/(nm×km)

Wave
length
RX

Fiber System

attenua­tion

Example
for F/O
line

a

length

Fiber
attenua­tion

Dispersion

Table 15: F/O port (bidirectional Gigabit Ethernet SFP Transceiver)

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

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

 Basic modules: Power consumption/power output, supply

voltage

Note: For the extended temperature range, use suitable modules and
transceivers. You will identify these components by the “EEC” name
extension or the open variant product code “E” (postion 15).

Basic module Power consumption Power output Supply voltage

MS20-0800...A... 5.0 W 17.1 Btu (IT)/h 18-32 VDC
MS20-0800...C...

MS20-0800...E...
MS30-0802...A... 5.6 W 19.2 Btu (IT)/h 18-32 VDC
MS30-0802...C...

MS30-0802...E...
MS20-1600...A... 12.0 W 40.0 Btu (IT)/h 18-32 VDC
MS20-1600...C...

MS20-1600...E...
MS30-1602...A... 12.6 W 41.1 Btu (IT)/h 18-32 VDC
MS30-1602...C...

MS30-1602...E...
MS20-2400...A... 12.0 W 40.0 Btu (IT)/h 18-32 VDC
MS20-2400...C...

MS20-2400...E...
MS30-2402...A... 12.6 W 42.1 Btu (IT)/h 18-32 VDC
MS30-2402...C...

MS30-2402...E...

72

7.4 W 25.4 Btu (IT)/h 18-60 VDC

8.6 W 29.6 Btu (IT)/h 18-60 VDC

15.6 W 52.2 Btu (IT)/h 18-60 VDC

16.8 W 56.7 Btu (IT)/h 18-60 VDC

16.8 W 56.7 Btu (IT)/h 18-60 VDC

18.0 W 60.9 Btu (IT)/h 18-60 VDC

Installation MS20/MS30

Release 13 09/2019

 Media modules: Power consumption, Power output,

operating temperature surrounding air, order numbers

Module Power

consump­tion

MM2 media modules:

MM2-4TX1 0,8 W 2,8 Btu (IT)/h 0 °C ... +60 °C 943 722-101
MM2-4TX1-EEC 0,8 W 2,8 Btu (IT)/h −40 °C ... +70 °C 943 722-151
MM2-4FXM3 6,8 W 23,2 Btu (IT)/h 0 °C ... +60 °C 943 721-101
MM2-2FXM3/2TX1 3,8 W 13,0 Btu (IT)/h 0 °C ... +60 °C 943 720-101
MM2-2FXM2 3,8 W 13,0 Btu (IT)/h 0 °C ... +60 °C 943 718-101
MM2-2FXS2 3,8 W 13,0 Btu (IT)/h 0 °C ... +60 °C 943 719-101

MM3 media modules:

MM3-2AUI 3,4 W 11,6 Btu (IT)/h 0 °C … +60 °C 943 840-101
MM3-4FLM4 5,0 W 17,1 Btu (IT)/h 0 °C ... +60 °C 943 760-101
MM3-2FLM4 / 2TX1-RT 5,0 W 17,1 Btu (IT)/h 0 °C ... +60 °C 943 117-004
MM3-4TX5 0,8 W 2,8 Btu (IT)/h 0 °C ... +60 °C 943 841-101
MM3-4TX1-RT 0,8 W 2,8 Btu (IT)/h 0 °C ... +60 °C 943 117-001
MM3-1FXM2/3TX1 2,3 W 7,9 Btu (IT)/h 0 °C ... +60 °C 943 839-101
MM3-2FXM2/2TX1 3,8 W 13,0 Btu (IT)/h 0 °C ... +60 °C 943 761-101
MM3-2FXM2/2TX1-EEC 3,8 W 13,0 Btu (IT)/h −40 °C ... +70 °C 943 761-151
MM3-2FXM2 / 2TX1-RT 3,8 W 13,0 Btu (IT)/h 0 °C ... +60 °C 943 117-002
MM3-2FXM4/2TX1 3,8 W 13,0 Btu (IT)/h 0 °C ... +60 °C 943 837-101
MM3-4FXM2 6,8 W 23,2 Btu (IT)/h 0 °C ... +60 °C 943 764-101
MM3-4FXM4 6,8 W 23,2 Btu (IT)/h 0 °C ... +60 °C 943 835-101
MM3-1FXS2/3TX1 2,3 W 7,9 Btu (IT)/h 0 °C ... +60 °C 943 838-101
MM3-1FXS2 / 3TX1 EEC 2,3 W 7,9 Btu (IT)/h −40 °C ... +70 °C 943 838-151
MM3-2FXS2/2TX1 3,8 W 13,0 Btu (IT)/h 0 °C ... +60 °C 943 762-101
MM3-2FXS2/2TX1 EEC 3,8 W 13,0 Btu (IT)/h −40 °C ... +70 °C 943 762-151
MM3-4FXS2 6,8 W 23,2 Btu (IT)/h 0 °C ... +60 °C 943 836-101
MM3-1FXL2/3TX1 3,4 W 11,6 Btu (IT)/h 0 °C ... +60 °C 943 763-101

MM4 media modules:

MM4-4TX/SFP 9,0 W 30,8 Btu (IT)/h 0 °C ... +60 °C 943 010-001
MM4-2TX/SFP 5,8 W 19,8 Btu (IT)/h 0 °C ... +60 °C 943 622-001

Open variant media modules:

MM20-... 4 TX-/0 FX-Ports 0,8 W 2,8 Btu (IT)/h See table 17. See table 17.
MM20-... 3 TX-/1 FX-Ports 2,3 W 7,9 Btu (IT)/h - “ - - “ ­MM20-... 2 TX-/2 FX-Ports 3,8 W 13,0 Btu (IT)/h - “ - - “ ­MM20-... 0 TX-/2 FX-Ports 3,8 W 13,0 Btu (IT)/h - “ - - “ ­MM20-... 1 TX-/3 FX-Ports 5,3 W 18,1 Btu (IT)/h - “ - - “ ­MM20-... 0 TX-/4 FX-Ports 6,8 W 23,2 Btu (IT)/h - “ - - “ ­MM20-A8A89999... 3,4 W 11,6 Btu (IT)/h - “ - - “ ­MM20-F4F4F4F4... 5,0 W 17,1 Btu (IT)/h - “ - - “ ­MM20-Z6Z6Z6Z6... 8,0 W 27,3 Btu (IT)/h - “ - - “ ­MM20-P9P9P9P9SAHH 8,0 W 27,3 Btu (IT)/h 0 °C ... +60 °C - “ -

Power output Operating

temperature
(ambient air
temperature)

Order
number

Table 16: Media modules: power, temperature, order numbers

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Release 13 09/2019

73

Module Power

MM20-P9P9T1T1SAHH 5,2 W 17,8 Btu (IT)/h 0 °C ... +60 °C - “ ­MM22-T1T1T1T1...

- internal operating voltage

- external PoE voltage

- no PD

- 4 x Class0-PD
MM23-T1T1T1T1...SAHH 4,5 W 15,4 Btu (IT)/h 0 °C ... +60 °C - “ ­MM23-M2M2T1T1...SAHH 6,0 W 20,5 Btu (IT)/h 0 °C ... +60 °C - “ ­MM23-S2S2T1T1...SAHH 5,5 W 18,8 Btu (IT)/h 0 °C ... +60 °C - “ ­MM23-F4F4T1T1...SAHH 5,5 W 18,8 Btu (IT)/h 0 °C ... +60 °C - “ ­MM24-IOIOIOIO... 7,5 W 25,6 Btu (IT)/h 0°C ... +60 °C - “ ­MM30-O7O7O7O7... 9,0 W 30,8 Btu (IT)/h See table 17. - “ ­MM30-O7O79999... 5,8 W 19,8 Btu (IT)/h - “ - - “ ­MM33-O7O79999...SAHH 7,5 W 25,6 Btu (IT)/h 0 °C ... +60 °C - “ -

Extender module:

MB20 0 W 0 Btu (IT)/h 0 °C to +60 °C 943 733-102

consump­tion

0.8 W

1.3 W
2 W + PDs

Power output Operating

temperature
(ambient air
temperature)

- “ - - “ -

2.8 Btu (IT)/h

4.3 Btu (IT)/h

6.9 Btu (IT)/h

Order
number

Table 16: Media modules: power, temperature, order numbers

 Open variant product code

As an alternative to the order number (see table 16, last column) you can
use the product code. This gives you a wider range of variants when
selecting the media module that is specially tailored to your requirements.
The product code of your media module is made from combining the
desired product characteristics in accordance with the following table.
The short designation is in the “Characteristic value” column.

Example: product code MM30-O7O7O7O7... = media module 1000 Mbit/
s with four Gigabit Ethernet combo ports (four SFP ports or alternatively
four TP ports RJ45). This example corresponds to the MM4-4TX/SFP
module with the order number 943 010-001.

Position Characteristic Charac-

teristic
value

1 ... 4 Product MM20 Media module 10/100 Mbit/s (Standard)

MM22 Media module 10/100 Mbit/s (Power over

MM23 Media module 10/100 Mbit/s (PTP Version 2)
MM24 MICE Digital I/O module
MM30 Media module 1000 Mbit/s (Standard)
MM33 Media module 1000 Mbit/s (PTP Version 2)

5 - (hyphen) -

Table 17: Combination possibilities of the MM20/MM30 media module variants

74

Property

Ethernet)

Installation MS20/MS30

Release 13 09/2019

Position Characteristic Charac-

6 ... 7 1st port (medium/

connector)

8 ... 9 2nd port (medium/

connector)

10 ... 11 3rd port (medium/

connector)

12 ... 13 4th port (medium/

connector)

14 Temperature range S Standard: operation +32 °F ... +140 °F (0 °C ...

15 Approvals A CE, UL 508, ISA 12.12.01 Class I Division 2

teristic
value

T1 Twisted Pair (TX) / RJ45
T5 Twisted Pair (TX) / M12
M2 Multimode FX DSC (100 Mbit/s)
M3 Multimode FX MTRJ (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 Long Haul FX DSC (100 Mbit/s)
G2 Singlemode Long Haul FX DSC 200km

F4 Multimode FL ST (10 Mbit/s)
P9 POF FX SCRJ (100 Mbit/s)
O7 Combo Port Gigabit Ethernet (SFP 1000 Mbit/s)
A8 AUI Sub-D
Z6 Fiber Optic / SFP-Slot (100 Mbit/s)
IO 4 digital inputs, 4 digital outputs
... See position 6 ... 7

... See position 6 ... 7
99 Empty
... See position 6 ... 7
99 Empty

T Extended: operation −40 °F ... +158 °F (−40 °C

E Extended: operation −40 °F ... +158 °F (−40 °C

B CE, UL 508, ISA 12.12.01 Class I Division 2, GL,

E CE, UL 508, GL, EN 50121-4
H CE, UL 508, ISA 12.12.01 Class I Division 2, GL,

S CE, UL 508, GL, IEC 61850-3, IEEE 1613,

Y CE, UL 508
ZCE

Property

(100 Mbit/s)

+60 °C); storage −40 °F ... +158 °F (−40 °C ...
+70 °C )

... +70 °C )
storage −40 °F ... +185 °F (−40 °C ... +85 °C )

... +70 °C )
storage −40 °F ... +185 °F (−40 °C ... +85 °C )
with Conformal Coating

ATEX Zone 2

IEC 61850-3, IEEE 1613,EN 50121-4

EN 50121-4

Table 17: Combination possibilities of the MM20/MM30 media module variants

Installation MS20/MS30

Release 13 09/2019

75

 Interfaces

MICE MS20-..., MS30-... V.24 Port: external management,

MICE MS20-...E..., MS30-...E... V.24 Port: external management,

MM2 media modules See “MM2 media modules” on page 30.
MM3 media modules See “MM3 media modules” on page 31.
MM4 media modules See “MM4 media modules” on page 32.

AutoConfiguration Adapter ACA11
2 terminal blocks 4-pin, each 1 × signal contact, max. 1 A, 24 V
each 1 × power supply
USB: ACA21-USB

AutoConfiguration Adapter ACA11
2 terminal blocks 4-pin, each 1 × signal contact, max. 1 A, 24 V
each 1 × power supply
USB: ACA21-USB

 Scope of delivery

Number Article

1 × Device
2 × 4-pin terminal block for supply voltage

1 × 6-pin terminal block for the supply voltage

1 × ML-MS2/MM labels
1 × Installation user manual
1 × CD/DVD with manual

(MS20-.../MS30-...)

(MS20-...E.../MS30-...E..)

76

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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 IP
20 to a device with IP 65, the IP of the overall system is reduced to 20.

Designation Order number
Fast Ethernet SFP transceiver

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

Gigabit Ethernet SFP transceiver

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

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

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Other accessories Order number

AutoConfiguration Adapter ACA11-EEC 943 751-002
AutoConfiguration Adapter ACA21-USB (EEC) 943 271-003
Terminal cable 943 301-001
4-pin terminal block (50 pcs.) 943 845-004
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 (CC) 943 662-121
Rail Power Supply RPS60/48V EEC 943 952-001
ML-MS2/MM labels 943 767-001
ML-MS3 labels 943 768-001
Network management software Industrial HiVision 943 156-xxx
OPC server software HiOPC 943 055-001

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 Underlying technical standards

Name

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

EN 50155 Declaration (Railway)
EN 55032 Information technology equipment – Radio disturbance characteristics

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

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

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

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 in substations – Part 3:

IEEE 802.1 D Media access control (MAC) bridges (includes IEEE 802.1p Priority

IEEE 802.1D-1998,
IEEE 802.1D-2004

IEEE 802.1Q Virtual LANs (VLANs, MRP, Spanning Tree)
IEEE 802.1 Q Virtual Bridged Local Area Networks (VLAN Tagging, GVRP)
IEEE 802.1w Rapid Reconfiguration
IEEE 802.3 Ethernet
IEEE 1613 IEEE Standard Environmental and Testing Requirements for

CSA C22.2 No. 213 Canadian National Standard(s) for Nonincendive Electrical Equipment

Korean Register of
Shipping

UL 508 Safety for Industrial Control Equipment

Table 18: List of the technical standards

a. Devices with C specification (see product code position 16 in table 1)

(MS20-0800ECCP, MS20-1600ECCP)

b. Restriction: Electrical isolation on voltage input: see table entry

„Isolating voltage between operating voltage connec-tors and housing“ in chapter

“Technical data” on page 62

and telecommunications apparatus (Rail Trackside)

– Limits and methods of measurement

protection “n”

requirements

Immunity for industrial environments

General requirements

and Dynamic Multicast Filtering, GARP, GMRP)
Media access control (MAC) bridges (includes IEEE 802.1p Priority

and Dynamic Multicast Filtering, GARP, GMRP)

Communication Networking Devices in Electric Power Substations

for Use in Class I, Division 2 Hazardous Locations
Rules for the Classification of Steel Ships – KR

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RFC 768 UDP RFC 1769 SNTP
RFC 783 TFTP RFC 1907 MIB2
RFC 791 IP RFC 1945 HTTP/1.0
RFC 792 ICMP RFC 2131 DHCP
RFC 793 TCP RFC 2132 DHCP Options
RFC 826 ARP RFC 2236 IGMPv2
RFC 951 BOOTP RFC 2239 MAU-MIB
RFC 1112 IGMPv1 RFC 3411 SNMP Framework
RFC 1157 SNMPv3 RFC 3412 SNMP MDP
RFC 1155 SMIv1 RFC 3413 SNMP Applications
RFC 1213 MIB2 RFC 3414 SNMP USM
RFC 1493 Dot1d RFC 3415 SNMP VACM
RFC 1542 BOOTP Extensions RFC 2613 SMON
RFC 1757 RMON RFC 2674 Dot1p/Q

Table 19: List of RFCs

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

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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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