Manual Release 2 Part 1: Devices · 2020. 4. 30. · • four Ethernet interfaces (IEEE 802.3) for LAN connections with and without Power over Ethernet (PoE). • Up to two SHDSL

Power Grids

EDS500 series - Ethernet & DSL switchesPart 1: DevicesManual Release 2

Power Grids

EDS500 series - Ethernet & DSL switchesPart 1: DevicesManual Release 2

Revision

RevisionDocument identity: 1KGT150966 V001 1

Revision: Date: Changes:

0 05/2019 Initial version

1 04/2020 Update for EDS500 Release 2.2: new PoE devices

2 1KGT150966 V001 1

Contents

Contents

1 Introduction............................................................................................................................. 61.1 About the Manual EDS500 series - Ethernet & DSL switches.....................................61.2 References..............................................................................................................................6

2 Safety instructions..................................................................................................................72.1 Introduction........................................................................................................................... 72.2 Safety indication symbols.................................................................................................. 72.3 Applicable standards and directives for installation and operation......................... 82.4 Qualified personnel..............................................................................................................92.5 Intended use..........................................................................................................................92.6 Warnings and cautions....................................................................................................... 9

3 System concept......................................................................................................................113.1 Device family........................................................................................................................ 113.2 Network structures............................................................................................................ 12

3.2.1 Network structures: Line................................................................................. 123.2.2 Network structures: Ring................................................................................ 133.2.3 Network structures: Star................................................................................. 133.2.4 Network structures: Line with branch..........................................................143.2.5 Network structures: Redundant point-to-point connection.................... 143.2.6 Network structure: Line with redundant route via mobile

connection.......................................................................................................... 153.3 Functions overview............................................................................................................ 15

3.3.1 Remote control protocols and protocol integration..................................153.3.2 Monitor and interface dependencies............................................................163.3.3 Switching and Spanning Tree.........................................................................163.3.4 Virtual local Networks (VLANs)......................................................................163.3.5 IP routing.............................................................................................................173.3.6 SNMP.................................................................................................................... 173.3.7 Syslog...................................................................................................................173.3.8 Alarm System..................................................................................................... 173.3.9 SSH-Telnet console........................................................................................... 183.3.10 Web interface..................................................................................................... 183.3.11 RADIUS.................................................................................................................18

4 Device description.................................................................................................................194.1 Compact device 500NMD01.............................................................................................19

4.1.1 Overview 500NMD01........................................................................................ 194.1.2 Front view and connectors 500NMD01........................................................ 194.1.3 Device data 500NMD01...................................................................................20

4.2 Compact device 500NMD02.............................................................................................214.2.1 Overview 500NMD02........................................................................................ 214.2.2 Front view and connectors 500NMD02........................................................214.2.3 Device data 500NMD02................................................................................... 22

4.3 Compact device 500NMD11............................................................................................. 23

1KGT150966 V001 1 3

Contents

4.3.1 Overview 500NMD11.........................................................................................234.3.2 Front view and connectors 500NMD11.........................................................234.3.3 Device data 500NMD11....................................................................................24

4.4 Compact device 500NMD20............................................................................................ 254.4.1 Overview 500NMD20........................................................................................254.4.2 Front view and connectors 500NMD20....................................................... 264.4.3 Device data 500NMD20...................................................................................26

4.5 Compact device 500NMD30............................................................................................ 274.5.1 Overview 500NMD30........................................................................................274.5.2 Front view and connectors 500NMD30....................................................... 284.5.3 Device data 500NMD30...................................................................................28

4.6 Compact device 500NMD40............................................................................................294.6.1 Overview 500NMD40....................................................................................... 294.6.2 Front view and connectors 500NMD40....................................................... 304.6.3 Device data 500NMD40.................................................................................. 30

4.7 Compact device 500NMD41.............................................................................................314.7.1 Overview 500NMD41........................................................................................ 314.7.2 Front view and connectors 500NMD41........................................................ 324.7.3 Device data 500NMD41................................................................................... 32

4.8 Compact device 500NMD42............................................................................................ 334.8.1 Overview 500NMD42........................................................................................334.8.2 Front view and connectors 500NMD42........................................................334.8.3 Device data 500NMD42...................................................................................34

4.9 Compact device 500NMD43............................................................................................ 354.9.1 Overview 500NMD43........................................................................................354.9.2 Front view and connectors 500NMD43........................................................354.9.3 Device data 500NMD43...................................................................................36

4.10 Compact device 500NMD44............................................................................................ 374.10.1 Overview 500NMD44....................................................................................... 374.10.2 Front view and connectors 500NMD44....................................................... 374.10.3 Device data 500NMD44.................................................................................. 38

4.11 General data........................................................................................................................ 394.12 Connections........................................................................................................................ 40

4.12.1 Ethernet interfaces (Port1 - Port4)...............................................................404.12.2 SFP Interfaces (Fo1 - Fo2)............................................................................... 414.12.3 DSL interfaces (X3, X4, X5)............................................................................. 414.12.4 Serial interfaces (Con0 - Con1)...................................................................... 434.12.5 Power connector (X1 and X3).........................................................................444.12.6 Alarm relay (X2).................................................................................................464.12.7 Extension interface (EXT)............................................................................... 47

4.13 Display elements................................................................................................................ 474.14 Controls................................................................................................................................48

4.14.1 Reset button......................................................................................................484.15 Accessories..........................................................................................................................49

4.15.1 Optical SFP Modules........................................................................................494.15.2 Other accessories.............................................................................................50

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Contents

5 Maintenance........................................................................................................................... 53

6 Glossary.................................................................................................................................. 55

1KGT150966 V001 1 5

About the Manual EDS500 series - Ethernet & DSL switches Introduction

1 Introduction

1.1 About the Manual EDS500 series - Ethernet &DSL switches

The Manual consists of several parts:

Document identity Part name Explanation

1KGT150966 Part 1: Devices Description of the device portfolio

1KGT151021 Part 2: Functions Description of the functions

1KGT151018 Part 3: Command reference Description of the command lineinterface

Table 1: Parts of the Manual EDS500 series - Ethernet & DSL switches

1.2 References

[1] Individual Ident EDS500 seriesHardware datasheets

Individual hardware data sheets of alldevices and auxiliary equipment

[2] Individual Ident EDS500 seriesOperatinginstructions

Individual operating instructions of alldevices and auxiliary equipment

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Safety instructions Introduction

2 Safety instructions

2.1 Introduction

Read the following chapter before mounting and commissioning a system or device of theEDS500 series.

2.2 Safety indication symbols

The following safety indication symbols are used in this documentation:

DANGER

Hazardous situation which, if not avoided, will result in death or serious injury of theoperating personnel. The provided information is necessary to know, if you configure aEDS500 series device. The safety indication informs about a restriction etc.

WARNING

Hazardous situation which, if not avoided, could result in death or serious injury ofoperating personnel.

CAUTION

Hazardous situation, which, if not avoided, could result in minor or moderate injury.

ADVICE

Important information not related to personal injury but that should be observed. Thissymbol is used to indicate restrictions, prerequisites, and other information that isimportant for configuration.

The following safety indication symbols are used on EDS500 series devices:

Symbol Type Level of danger

Warning Hazardous situation, read documentation (data sheets andoperating instructions)

Warning Laser, read documentation (data sheets and operating instruc-tions)

Table 2: Safety indication symbols on EDS500 series devices

1KGT150966 V001 1 7

Applicable standards and directives for installation and oper-ation

Safety instructions

Symbol Type Level of danger

Advice Protection class II equipment (IEC 61140):• double insulated and• with functional earthing.

Table 2: Safety indication symbols on EDS500 series devices

2.3 Applicable standards and directives forinstallation and operation

The devices of the ABB Power Grids Germany AG EDS500 series are produced in compliancewith the relevant regulations and standards.

According to IEC 60664-1 (DIN VDE 0110-1) Insulation coordination for equipment within low-voltage systems – Part 1: Principles, requirements and tests, classification of the EDS500series is as follows:• Pollution degree 2

Only non-conductive pollution occurs except that occasionally a temporary conductivitycaused by condensation is to be expected.

• Overvoltage category II in accordance with the definitions in IEC 60364-4-44

The owner of the devices and components is responsible to ensure that they are installedsafely and in compliance with the applicable local laws and regulations.

Standard Explanation

DIN VDE 0100 Erection of power installations with nominal voltages up to1000 V AC or 1500 V DC

EN 50274 (DIN VDE 0660-514) Low-voltage switchgear and controlgear assemblies

Protection against electric shock - Protection against unin-tentional direct contact with hazardous live parts

IEC/EN 60204 (DIN VDE 0113) Safety of machinery; Electrical equipment of machines

Part 1: General requirements

EN 50178 (DIN VDE 0160) Electronic equipment for use in electrical power installationsand their assembly into electrical power installations

EN 50310 (DIN VDE0800-2-310)

Application of equipotential bonding and earthing in build-ings with information technology equipment

Table 3: Standards

Mounting into cubical is mandatory due to fire protection.

If devices of the EDS500 series are coupled with or supplied through power-frequencyvoltage networks of overvoltage category III, take suitable protective action, such asinstalling surge voltage protectors, to guarantee that overvoltage category II (1500 V max.transient) according to DIN VDE 0110 applies at the terminal connectors. The secondarycircuit should be connected to protective terminal.

WARNING

For detailed installation instructions of the individual devices refer to the respectiveoperating instructions.

8 1KGT150966 V001 1

Safety instructions Qualified personnel

2.4 Qualified personnel

DANGER

The connectors or terminals of some components of the EDS500 series may conductdangerous contact voltages.

Touching parts with live current will result in death or serious injury.

Installation, commissioning and maintenance of such systems must be carried out only byqualified personnel with knowledge of the following information:• Dealing with dangerous voltages• Application of the relevant specifications, standards, and regulations, in particular of

the applicable EN (VDE) standards and occupational safety regulations aiming at theprevention of accidents

2.5 Intended use

The EDS500 series was developed, manufactured, tested, and documented observing therelevant standards.

If the applicable regulations for installation, commissioning, and maintenance are observed,the product does not pose a danger to health, life, safety, or property under normalcircumstances.

"Intended use of the product" means that the components of the EDS500 series are operatedand maintained exclusively in the form described in the product documentation. In particular,intended use of the product requires observing the technical specifications of the processcircuits and power supply.

ABB Power Grids Germany AG does not accept any responsibility whatsoever for injury ordamage resulting from improper use or unauthorized repair.

2.6 Warnings and cautions

DANGER

Interrupt the power supply before mounting or dismounting the device.

WARNING

An easy to access manual interrupter has to be installed into the power feed of the modemto be able to disconnect the modem from the power supply in the case of an emergency.

WARNING

The EDS500 devices are intended only for use in restricted access area without accessfor children or ordinary persons. For fire protection the devices have to be mounted intosuitable cubicles which are certified for the function of a fire protection housing.

1KGT150966 V001 1 9

Warnings and cautions Safety instructions

WARNING

The device shall be powered off while accessing any of the connectors X1 (powerconnector) or X2 (alarm relay). Any other connectors (e.g. Ethernet, RS-232, RS-485 or DSL)are hot-pluggable while the device is operating.

WARNING

No plug shall be freely accessible in normal operation due to safety reasons.

WARNING

Connect the device only if you can make sure that the specifications are kept.

WARNING

Only transceivers up to laser class 1 according to EN 60825-1 are allowed to be used for theSFP interfaces.

ADVICE

EDS500 devices are industrial products (EN 55032 class A). In a domestic environmentthis product may cause radio interference in which case the user may be required to takeadequate measures.

ADVICE

Electronic components are sensitive for electrostatic discharge.

To prevent damages to your devices deviate possibly occurring static charges beforetouching the module or components. We recommend to wear a conductive grounded wristtape.

10 1KGT150966 V001 1

System concept Device family

3 System concept3.1 Device family

The EDS500 managed switches have been designed as multilayer switch and multi-purposecommunication device specifically for tasks of the process data communication. The devicesare employed for the data communication in future-oriented energy networks, for remotemeter reading, remote monitoring and control when feeding renewable energy into SmartGrids.

The device have• four Ethernet interfaces (IEEE 802.3) for LAN connections with and without Power over

Ethernet (PoE).• Up to two SHDSL interfaces for data transmission via 2-wire-copper for distances up to 25

km with transmission rates between 192 and 15.000 kbps.• Up to two pluggable optical transceivers for communication via optical fibre in SFP design

(small formfactor pluggable) for an easy installation of various transceivers and distancesof up to 180 km at 100 Mbps.

• up to 2 serial interfaces for configuration and / or for transmission of serial remote accessprotocols.

The devices feature extensive management tools for telecontrol like Syslog, SNMP, SSH,Telnet, IEC 60870-5-104 and an integrated web-server for easy configuration as well ascomprehensive self monitoring functions to monitor the signal quality on copper cables andoptical lines as well as the device status.

High availability operation is possible as redundant structures like rings or parallel routes canbe set up.

These features cut out the EDS500 devices as the ideal communications technology fortelecontrol technology e.g. according to IEC 60870-5-104, IEC 60870-5-101 or IEC 61850. Oldcopper networks become high performance IP networks with telecontrol and redundantprotection. In a mixed operation it is possible to keep the old telecontrol technology whileadding modern technology step by step (TCP/IP based transmission, VoIP phones).

1KGT150966 V001 1 11

Network structures System concept

The compact housing without any moving parts for easy mounting on hat rails, a wide rangepower supply (24 to 60 V DC), low power consumption, an enhanced temperature range andintegrated overvoltage protection prove the concept of the EDS500 devices.

Device type Ethernet inter-faces

SHDSL inter-faces

SFP interfaces RS-232 inter-faces

PoE

500NMD01 4 1 - 1 no

500NMD02 4 2 - 2 no

500NMD11 4 1 1 2 no

500NMD20 4 - 2 2 no

500NMD30 4 - - 1 no

500NMD40 4 - - 1 yes

500NMD41 4 1 - 1 yes

500NMD42 4 2 - 2 yes

500NMD43 4 1 1 2 yes

500NMD44 4 - 2 2 yes

Table 4: Device types

FO fibertype

up to 2 km up to 15 km up to 20 km up to 40 km up to 80 km up to 200 km

Multi mode 500SMM02 - - - - -

Single mode,two fibers

- 500SSM15 - 500SSM40 500SSM80 500SSM90

Single mode,one fiber

- - 500SDM20500SUM20

500SDM40500SUM40

- -

Table 5: Ranges with optical fiber

Details on available SFPs can be found in Chapter 4.15.1, "Optical SFP Modules"

3.2 Network structures

Devices of the EDS500 series allow you to realize a wide variation of network structures likepoint-to-point connections, lines, rings, stars, branches and meshed networks. The followingsmall examples should give an overview of possible network variants.

3.2.1 Network structures: Line

Control staon Staon 1 Staon 2 Staon 3

Cu

21 2

RTU RTU RTU

1

Eth Eth

LWL Cu

Eth Eth

Controlsystem

Figure 1: Example for network structure: Line

Legend:1 500NMD012 500NMD11

Various transmission media: SHDSL via copper cable (Cu), optical transmission via opticalfibre (FO).

12 1KGT150966 V001 1

System concept Network structures

All user stations (central station, branches) are connected via Ethernet (Eth) to thetransmission line.

3.2.2 Network structures: Ring


Staon 6 Staon 5 Staon 4

Cu

Control system

22

RTU RTU RTU

1

Eth Eth

Cu

Eth Eth

33

RTU RTU RTU

3

Eth

LWL

Cu

Eth Eth

LWL

1

LWL

LWL

Figure 2: Example for network structure: Ring

Legend:1 500NMD112 500NMD023 500NMD20

Automatic redundancy: each station can be reached via two routes.

3.2.3 Network structures: Star

Control staon

Staon 1 Staon 2

Staon 4Staon 3

41

RTU RTU

RTU

1

Eth

Eth Eth

Eth

RTU

1

Eth

2

LWL

3

Eth

Cu

Cu

Cu

Controlsystem

Figure 3: Example of network structure: Star

Legend:1 500NMD012 500NMD023 500NMD114 500NMD20

Central station: coupling EDS500 devices with back-to-back-connection of Ethernet ports.

Station 2: the 500NMD20 device is equipped with just one optical SFP.

1KGT150966 V001 1 13

Network structures System concept

3.2.4 Network structures: Line with branch


Staon 4 Staon 5

Cu

Control

21 1

RTU RTU RTU

1

Eth Eth

Cu

Eth Eth

2

RTU RTU

1

Cu

Eth Eth

Cu

2

Eth

Cu

system

Figure 4: Example for network structure: Line withbranch


Station 1: coupling EDS500 devices with back-to-back-connection of Ethernet ports.

As an alternative to SHDSL via copper lines transmission can use optical fibres. Use thecorresponding EDS500 devices.

It is possible to establish a branch at any point in ring structures and other structures.

3.2.5 Network structures: Redundant point-to-point connection

Control staon Staon Control staon Staon

Cu

22

RTU

Eth Eth

Cu

Cu

11

RTU

Eth Eth

LWL

Controlsystem

Controlsystem

Figure 5: Example for network structure: Redundantpoint-to-point connection


Connections between stations can be designed as redundant routes with an additional line.For this you can use copper lines for SHDSL as well as optical fibres. The automatic selectionof the best available transmission line leads to better operating security. (see EDS500 Manual- Part 2: Spanning Tree Protocol)

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System concept Network structures

3.2.6 Network structure: Line with redundant route via mobileconnection

Eth

Station 1

RTU

Station 2

Eth

RTU

2

Station 3

Eth

RTU

2

1Cu

Eth

EthEth

Station 4

RTU

1

EthEth

Cu

Cu

Control station

Controlsystem

VPN tunnelInternet

Mobil radiomodem

Mobil radiomodem

Figure 6: Example for network structure: Line withredundant route via mobile connection


The monitoring function of the EDS500 devices allows to monitor the network to the centraloffice. Failure of the primary connection (here: VPN tunnel through the internet) makes theEDS500 device in station 4 to start a dial-in connection via the mobile network as secondaryconnection. Placing the dial-in spots at the end of a line leads not only to a line protectionwhen the VPN tunnels is lost, but also for any loss of connection between the stations 1 to 4.

3.3 Functions overview3.3.1 Remote control protocols and protocol integration

As EDS500 devices support TCP/IP based protocols like IEC 60870-5-104 as well as theestablished RS-232 based serial protocols like IEC 60870-5-101 it is possible to transportthese (and other) protocols in the same network simultaneously. This mixed operation allowsto modernize existing SCADA networks step by step with the future-proof IP technology.

Numerous established serial protocols can be transported with this method among othersIEC 60870-5-101, Modbus, RP570/571, SEAB-1F and many more.

Using serial tunnelling improves existing serial networks with the advantages of packetoriented IP networks: protection with redundant connections (rings, backup connections),control and monitoring as well as transmission via modern DSL connections or opticalconnections.

The devices support native IEC 60870-5-101 and IEC 60870-5-104 which cuts them out for thefuture oriented, step-by-step expansion during the network modernization: The integratedconversion function from IEC 60870-5-101 to IEC 60870-5-104 and back allows the useof a modern IEC-104 based central office and switching the network to packet orientedIP transmission technology while the existing IEC-101-RTUs can still be used due to theconversion function. The transmission technology would already exist if these RTUs shall bereplaced with modern IEC 60870-5-104 devices.

Due to the integrated IEC 60870-5-104 support of EDS500 devices the communicationstechnology can be monitored directly from a IEC 60870-5-104 central office.

1KGT150966 V001 1 15

Functions overview System concept

Serial protocols that use the RS-232 interface can be transported via IP networks with thehelp of EDS500 devices. The serial data stream gets converted into individual packets andsent to one or more counter parts that re-assemble the packets into a serial data stream. Toavoid data loss due to packet loss, a error correcting protocol can be activated.

3.3.2 Monitor and interface dependencies

The EDS500 devices support the monitoring of an arbitrary device when the IP address isknown. Alternatively, entries in the routing table can be monitored.

This function is called monitor.

The monitor checks periodically the availability of a certain IP address on the basis of theresponse to ICMP echo request packages (ping). The query interval can be set.

With the help of the interface dependency function port states can be linked or reverselylinked to other port states or the monitor (Link Fault Pass Through). If e.g. the primaryconnection should fail, then a secondary connection can be established with a dial-upmodem.

3.3.3 Switching and Spanning Tree

The primary application of EDS500 devices is that of a (Layer 2) switch. As the devices notonly operate on the layer 2 of the OSI layer model but can also deal with data of the routinglayer 3 they are also called multilayer switches.

In the operation mode of a layer 2 switch the device handles incoming Ethernet frames byforwarding them to certain ports in correlation to a target address. While doing so, the so-called MAC table of the device learns the sender address. Ethernet frames with known targetaddresses are forwarded only to those ports for which is known that the target addresscan be found beyond them. Such a network can be expanded in a self-learning way. Anautomatic aging process makes sure that once learned network structures can be modifiedand removed.

To avoid that invalid replication of Ethernet frames brings the network to a standstill (so-called broadcast storms), it has to be taken care of a loop-free operation without activeparallel routes. For this the EDS500 devices implement the Spanning-Tree-, Rapid-Spanning-Tree-, Multiple-Spanning-Tree-Protocol (IEEE 802.1D-2004 and IEEE 802.Q-2011) and ERPSprotocol (ITU-T G.8032). These protocols are capable to enable or disable redundant paths ifrequired as they create one or more logical trees so that only one route leads to each target.

3.3.4 Virtual local Networks (VLANs)

VLANs are the option to split one physical network into several logical networks. Using thisfeature it is possible to create network segments without additional hardware.

The EDS500 devices support VLANs according to standard IEEE 802.1Q.

For example, two networks can be connected isolated from each other using the sameinfrastructure: RTUs and IP telephones can't see each other. Access ports and trunk portshave to be differentiated. Access ports form the outer edge of the VLAN infrastructurewhereas the trunk ports connect the VLAN components (switches).

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System concept Functions overview

3.3.5 IP routing

The EDS500 devices support routing on IP level (layer 3 of the OSI layer model) to create orparticipate in a routed environment.

The EDS500 devices use the Routing Information Protocol (RIPv2, RFC2453) to automaticallycreate routing tables and synchronization. Classless Inter-Domain Routing (CIDR) issupported. The extensions Triggered Updates and Split Horizon grant in general switchingtimes of less than a second when the topology is changed.

3.3.6 SNMP

The Simple Network Management Protocol is a network protocol to remotely monitor andcontrol network devices. A central office can request the runtime parameters and signaldeviations from the ordinary state. The protocol can be read by machines and is transmittedin code as opposed to e.g. the Syslog protocol that sends messages as plain text. SNMPpackets are (usually) transmitted via UDP/IP.

The devices of the EDS500 series implement SNMP in the versions SNMPv1 (RFC 1155, RFC1156, RFC 1157), SNMPv2c (RFC 1901, RFC 1905, RFC 1906) and SNMPv3 (RFC 3410).

Contents and extent of the objects (OIDs) that can be accessed with SNMP is defined byseveral MIB modules (Management Information Base). They are standardized and consistof: MIB-2 (SNMPv2- MIB, RFC 3418), Bridge MIB (RFC 4188), Interface MIB (RFC 2863), IP MIB(RFC 4293), TCP MIB (RFC 4022), UDP MIB (RFC 4113), LLDP-MIB (IEEE-802.1AB) and ENTITY-MIB (RFC 6933). Also, EDS500 devices use a manufacturer-proprietary MIB (ABB-EDS500-MIB), with objects that allow enhanced device management and detailed access to internalparameters. The ABB-EDS500-MIB file is available on request.

3.3.7 Syslog

Syslog is a network protocol to transmit log entries in an IP network. The transmission usuallyuses UDP/IP and consists of human readable plain text messages including information aboutseverity and a times tamp.

The EDS500 devices have a log filer on the devices themselves. If a SNTP server (SimpleNetwork Time Protocol) has been set, then the time stamp is a real date, otherwise it showsthe system up time. In addition, log entries can be sent to a central Syslog server at the timeof the event. The EDS500 devices use a numbered Syslog message scheme so that missingmessages can be detected.

3.3.8 Alarm System

The EDS500 devices have a three-level alarm model.

The alarm model distinguishes between the following levels:• Notice,• Warning,• Alarm.

If an event happens that triggers an alarm then it creates a log entry and optionally sends aSyslog message.

1KGT150966 V001 1 17

Functions overview System concept

For the critical level Alarm, a relais is switched that can control a signalization device. Unlikespontaneous events that do not lead to an alteration of the operational state, alarms aretriggered by events that, while they prevail, modify the operational state.

The levels indicate the degree of limitation for operation that is caused by the event. Forsome events, the administrator can set the alarm level, others are fixed.

For more information: EDS500 Manual - Part 2: Alarms and alarm configuration.

3.3.9 SSH-Telnet console

Devices of the EDS500 series offer an SSH server and Telnet server to access a commandinterpreter. Telnet is a network protocol to access the console of a remote device, SSH offersadditionally an encrypted connection. Both protocols are transported via TCP/IP.

The command interpreter of the EDS500 series translates user input into device settings.There are different access levels. The view mode allows to view information and monitorparameters. It is a read-only mode. The operation mode "configuration" has full access to thesystem to modify the configuration and retrieve all system details.

3.3.10 Web interface

As an alternative to the command line oriented access method of the command interpreterthe web server of the EDS500 devices offers a comfortable user-interface. With an existingIP connection to a device it can be configured and monitored fully using an ordinary webbrowser.

3.3.11 RADIUS

RADIUS (Remote Authentication Dial-In User Service) is a network protocol to authenticatelogins. The RADIUS server runs as a central service e.g. in the central office. If you want toconnect to an arbitrary device, user name and password are sent to the RADIUS server thatin return tells the device if the login was successful. If so, access to the network device isgranted.

The EDS500 devices allow RADIUS authentication for the services Telnet, SSH, web server andconsole.

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Device description Compact device 500NMD01

4 Device description4.1 Compact device 500NMD014.1.1 Overview 500NMD01

2-wire Cu

Console0DSL 1

Tunnel CFG

SHDSL-Interface

local LAN

1 2 3 4

Intelligent Switch(Layer 2 or 3)

Configurationand Monitoring

RS-232/RS-485

Figure 7: Block diagramm 500NMD01

Legend:1 Ethernet Port 12 Ethernet Port 23 Ethernet Port 34 Ethernet Port 4

The compact modem 500NMD01 has one wide area network SHDSL interface and fourEthernet interfaces. There is one serial interface available for configuration or as processinterface. A configurable alarm relais and an extension interface (e.g. to use the configurationstick) complete the device.

4.1.2 Front view and connectors 500NMD01

Figure 8: Front view of theEthernet DSL switch 500NMD01 Figure 9: Connections 500NMD01

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Compact device 500NMD01 Device description

Connectors Type

Port1 - Port4 "Ethernet interfaces (Port1 - Port4)",page 40

Con0 "Serial interfaces (Con0 - Con1)", page 43

EXT "Extension interface (EXT)", page 47

X1 "Power connector (X1 and X3)", page 44

X2 "Alarm relay (X2)", page 46

X3 "DSL interfaces (X3, X4, X5)", page 41

4.1.3 Device data 500NMD01

The interface data can be found in Chapter 4.12, "Connections".

Mechanical layout

Dimensions 99 x 45 x 115 mm (H x W x D)

Housing type Plastic housing

Mounting DIN rail mounting (EN 50022 TS35: 35 mm x 15mm or 35 mm x 7.5 mm)

Cooling thermal convection (no moving parts)

Enclosure protection class IP20 (IP30 when mounted on DIN-rail)

Weight 250 g

Mean time between failure (MTBF)

Calculation according to MIL-Handbook-217F 153 years @ 40 °C

Power supply input (X1)

Operating voltage 24...60 V DC -20%...+20%

Power consumption (typical) 4 W (all ports active)

Current demand (peak) 340 mA @ 24 V / 140 mA @ 60V

Ordering information

500NMD01 R0002 1KHW025096R0002

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4.2 Compact device 500NMD024.2.1 Overview 500NMD02

2-wire Cu

Console0DSL 2

Tunnel CFG

local LAN

1 2 3 4

RS-232

Tunnel

Console1

CFG

SHDSL-Interface

2-wire Cu

DSL 1

RS-232/RS-485



Figure 10: Block diagram 500NMD02


The compact modem 500NMD02 has two wide area network SHDSL interfaces and fourEthernet interfaces. There are two serial interfaces for configuration or process interface (e.g.to connect telecontrol units). A configurable alarm relais and an extension interface (e.g. touse the configuration stick) complete the device.



Connectors Type








1KGT150966 V001 1 21


Connectors Type




Mechanical layout






Weight 325 g






Current demand (peak) 540 mA @ 24 V / 220 mA @ 60 V


500NMD02 R0002 1KHW025097R0002

22 1KGT150966 V001 1



2-wire Cu

Console0DSL 1

Tunnel CFG

local LAN

2 3 4 51

WAN

RS-232

Tunnel

Console1

CFG

SHDSL-Interface

RS-232/RS-485




Legend:1 FO12 Ethernet Port 13 Ethernet Port 24 Ethernet Port 35 Ethernet Port 4

The compact modem 500NMD11 has one SHDSL wide area interface, one optical interfaceas SFP plug-in and four Ethernet interfaces. There are two serial interfaces for configurationor process interface (e.g. to connect telecontrol units). A configurable alarm relais and anextension interface (e.g. to use the configuration stick) complete the device.



Connectors Type



1KGT150966 V001 1 23


Connectors Type



SFP Fo1 "SFP Interfaces (Fo1 - Fo2)", page 41






Mechanical layout






Weight 330 g








500NMD11 R0002 1KHW027869R0002

24 1KGT150966 V001 1



Console0

Tunnel CFG

local LAN

3 4 5 62

RS-232

Tunnel

Console1

CFG

1

WANWAN

RS-232/RS-485




Legend:1 FO 12 FO 23 Ethernet Port 14 Ethernet Port 25 Ethernet Port 36 Ethernet Port 4

The compact modem 500NMD20 has two optical interface as SFP plug-in and four Ethernetinterfaces. There are two serial interfaces for configuration or process interface (e.g. toconnect telecontrol units). A configurable alarm relais and an extension interface (e.g. to usethe configuration stick) complete the device.

1KGT150966 V001 1 25




Connectors Type











Mechanical layout






Weight 325 g






26 1KGT150966 V001 1





500NMD20 R0002 1KHW025098R0002


Console0

CFG

local LAN

2 3 41

RS-232/RS-485



Tunnel



The compact modem 500NMD30 has four Ethernet interfaces. There is one serial interfacefor configuration. A configurable alarm relais and an extension interface (e.g. to use theconfiguration stick) complete the device.

1KGT150966 V001 1 27



Figure 20: Front view of theEthernet DSL switch 500NMD30 Figure 21: Connectons 500NMD30

Connectors Type








Mechanical layout






Weight 250 g







28 1KGT150966 V001 1



500NMD30 R0002 1KGT038890R0002


Console0

CFG

local LAN

2 3 41

RS-232/RS-485



Tunnel



The compact modem 500NMD40 has four Ethernet interfaces. There is one serial interfacefor configuration. A configurable alarm relais and an extension interface (e.g. to use theconfiguration stick) complete the device.

1KGT150966 V001 1 29



Figure 23: Front view ofthe Ethernet DSL switch500NMD40

Figure 24: Connections500NMD40 R0001


Connectors Type









Mechanical layout






Weight R1: 320 g, R2: 375 g


Calculation according to MIL-Handbook-217F R1: 118 years @ 40 °C, R2: 79 years @ 40 °C





30 1KGT150966 V001 1



500NMD40 R0001

up to 280 W power distribution (total over allports) via PoE+

1KGT038891R0001

500NMD40 R0002


1KGT038891R0002


2-wire Cu

Console0DSL 1

Tunnel CFG

SHDSL-Interface

local LAN

1 2 3 4



RS-232/RS-485



The compact modem 500NMD41 has one wide area network SHDSL interface and fourEthernet interfaces. There is one serial interface available for configuration or as processinterface. A configurable alarm relais and an extension interface (e.g. to use the configurationstick) complete the device.

1KGT150966 V001 1 31



Figure 27: Front view ofthe Ethernet DSL switch500NMD41



Connectors Type










Mechanical layout






Weight R1: 340 g, R2: 390 g







32 1KGT150966 V001 1



500NMD41 R0001


1KGT038892R0001

500NMD41 R0002


1KGT038892R0002


2-wire Cu

Console0DSL 2

Tunnel CFG

local LAN

1 2 3 4

RS-232

Tunnel

Console1

CFG

SHDSL-Interface

2-wire Cu

DSL 1

RS-232/RS-485





The compact modem 500NMD42 has two wide area network SHDSL interfaces and fourEthernet interfaces. There are two serial interfaces for configuration or process interface (e.g.to connect telecontrol units). A configurable alarm relais and an extension interface (e.g. touse the configuration stick) complete the device.


Figure 31: Front view ofthe Ethernet DSL switch500NMD42 Figure 32: Connections

500NMD42 R0001Figure 33: Connections500NMD42 R0002

1KGT150966 V001 1 33


Connectors Type












Mechanical layout






Weight R1: 430 g, R2: 485 g








500NMD42 R0001


1KGT038893R0001

500NMD42 R0002


1KGT038893R0002

34 1KGT150966 V001 1



2-wire Cu

Console0DSL 1

Tunnel CFG

local LAN

2 3 4 51

WAN

RS-232

Tunnel

Console1

CFG

SHDSL-Interface

RS-232/RS-485




Legend:1 FO12 Ethernet Port 13 Ethernet Port 24 Ethernet Port 35 Ethernet Port 4

The compact modem 500NMD43 has one SHDSL wide area interface, one optical interfaceas SFP plug-in and four Ethernet interfaces. There are two serial interfaces for configurationor process interface (e.g. to connect telecontrol units). A configurable alarm relais and anextension interface (e.g. to use the configuration stick) complete the device.



500NMD43 R0001Figure 37: Connectons500NMD43 R0002

Connectors Type




1KGT150966 V001 1 35


Connectors Type









Mechanical layout






Weight R1: 420 g, R2: 470 g








500NMD43 R0001


1KGT038894R0001

500NMD43 R0002


1KGT038894R0002

36 1KGT150966 V001 1



Console0

Tunnel CFG

local LAN

3 4 5 62

RS-232

Tunnel

Console1

CFG

1

WANWAN

RS-232/RS-485




Legend:1 FO 12 FO 23 Ethernet Port 14 Ethernet Port 25 Ethernet Port 36 Ethernet Port 4

The compact modem 500NMD44 has two optical interface as SFP plug-in and four Ethernetinterfaces. There are two serial interfaces for configuration or process interface (e.g. toconnect telecontrol units). A configurable alarm relais and an extension interface (e.g. to usethe configuration stick) complete the device.



500NMD44 R0001Figure 41: Connections500NMD44 R0002

1KGT150966 V001 1 37


Connectors Type












Mechanical layout






Weight R1: 420 g, R2: 470 g








500NMD44 R0001


1KGT038895R0001

500NMD44 R0002


1KGT038895R0002

38 1KGT150966 V001 1

Device description General data

4.11 General data

General standards

Safety tested according to • IEC 60950-1• IEC 62368-1

Environmental conditions tested according to • ETSI EN 300 019-1-3 class 3.4• ETSI EN 300 019-2-8 test condition T8.1• IEC 61850-3• IEC 60255-21-1 class 2• IEC 60255-21-2 class 1• IEC 60721-3-3 class 3M5• EN 50125-3 class T1 and T2

Electromagnetic compatibility (EMC) testedaccording to

• IEC 61000-6-2• IEC 61000-6-4• ETSI EN 300 386• EN 50121-4• IEC 61850-3

Environmental conditions - climatic

Operating temperatureEN 60068-2-1, EN 60068-2-2, EN 60068-2-14

-40 °C ... 80 °C

Relative humidityEN 60068-2-30

5 ... 95 % (non condensing)

Railway applicationsEN 50125-3

climatic class T1 and T2

Environmental conditions - mechanical

Vibration sinusoidal, Test Fc , IEC 60068-2-6 1.2 mm (5...9 Hz)4 m/s² (9...200 Hz) 1 octave/ min, 5 cycles per axisEN 300 019-2-8 class T8.1

0.075 mm (10...60 Hz)9.8 m/s² (60...150 Hz)1 octave/ min, 1 cycle per axisIEC 60255-21-1 class 2

Shock and Bump, Test Ea, IEC 60068-2-27 300 m/s², 18 ms3 shocks per directionIEC 60721-3-3 class 3M5

50 m/s², 11 ms100 shocks per directionEN 300 019-2-8 class T8.1

100 m/s², 16 ms1000 shocks per directionIEC 60255-21-2 class 1

Vibration broad-band random, Test Fh,IEC 60068-2-64

1.5 m/s² (5...100 Hz)30 min per axesEN 300 019-2-8 class T8.1

Hammer test, Test Eh, IEC 60068-2-75 energy: 0.2 J

1KGT150966 V001 1 39

Connections Device description

Emission test

Radiated emissions - enclosure ports (1 to 3GHz), CISPR 16-2-3/ EN 55016-2-3

EN 55022/ CISPR 22 class A

Conducted emissions - low voltage AC mainsport (0.15 MHz to 30 MHz), CISPR 16-2-1/ EN55016-2-1

EN 55032/ CISPR 32 class B

Immunity test

Electrostatic discharge, IEC 61000-4-2 8 kV air / 6 kV contact (level 3), criterion A

Radiated radio-frequency electromagneticfield, IEC 61000-4-3

80 MHz to 1 GHz: 20 V/m (level x), criterion A

1 GHz to 2.7 GHz: 10 V/m (level 3), criterion A

Impulse magnetic field, IEC 61000-4-9 100 A/m (level 3), criterion A

4.12 Connections4.12.1 Ethernet interfaces (Port1 - Port4)

Every Ethernet interface detects automatically whether the connected counterpart works astransmission or network termination device. This way both normal and crossover cables canbe used (MDI/MDI-X).

The Ethernet interface can operate at transmission rates of 10 or 100 Mbps, depending on theconnected devices in half duplex or full duplex mode. The operation mode is detected and setautomatically by the EDS500 devices. A manual configuration is possible.

Ethernet interfaces (Port1 - Port4)

Electrical specification IEEE 802.3

Protocol Fast Ethernet, Auto negotiation, Auto sense

Data rate 100 Mbps, 10 Mbps or auto

Duplex full duplex, half duplex or auto

Transmission / Network termination MDI, MDI-X or auto

Cable shielded CAT5e cable (or better), maximumlength: 100m

Plug type RJ-45 (8P8C)

Circuit classification TNV-1 (acc. IEC 60950-1)

Galvanic isolation 1.5 kV isolation voltage

Overvoltage protection shield to earth ±4 kV

Electrical fast transient / Burst, IEC 61000-4-4 4 kV (level 4), criterion A

Surge 1.2/50 µs, IEC 61000-4-5 4 kV (level 4), criterion A

Conducted disturbances, induced by radio-frequency fields, IEC 61000-4-6

10 V (level 3), criterion A

Conducted, common mode disturbancesin the frequency range 0 Hz to 150 kHz,IEC 61000-4-16

30 V continuous disturbance/ 300 V shortduration disturbance (level 4), criterion A

Conducted emissions - symetrical networkports (0.15 MHz to 30 MHz), CISPR 16-2-1/ EN55016-2-1

EN 55032/ CISPR 32 class B

40 1KGT150966 V001 1

Device description Connections

Pin allocation Ethernet interface (RJ-45)

Pin assigned as data transmissiondevice (MDI)

assigned as network termina-tion device (MDI-X)

1 Tx+ Rx+

2 Tx- Rx-

3 Rx+ Tx+

4 n.c. n.c.

5 n.c. n.c.

6 Rx- Tx-

7 n.c. n.c.

8 1

8 n.c. n.c.

4.12.2 SFP Interfaces (Fo1 - Fo2)

All SFP interfaces are designed according to Small Form-Factor Pluggable (INF-8074i).

SFP interface (Fo1 - Fo2)

Optical/ electrical specification IEEE 802.3

Protocol Fast Ethernet

Data rate 100 Mbps

Duplex Full duplex or half duplex (manual)

Plug type SFP (INF-8074i)

Optical SFPs

2 km: 62.5/125 and 50/125 μm multimode

15 km: 9/125 μm singlemode




supported optical fibre types

Further types on request

Plug type Duplex LC (IEC 61754-20, TIA604-10-A)

Details on available SFPs can be found in Chapter 4.15.1, "Optical SFP Modules"

WARNING

Only transceivers up to laser class 1 according to EN 60825-1 are allowed to be used for theSFP interfaces.

ADVICE

Any warranty claims can only extend to SFPs delivered by ABB.

4.12.3 DSL interfaces (X3, X4, X5)

The data transmission method SHDSL "Single-pair High-speed Digital Subscriber Line" hasbeen specified by the International Telecommunications Union (ITU recommendation G.991.2)and represents a modern, high performance, comfortable and secure communication

1KGT150966 V001 1 41


method. SHDSL works with data rates from 192 kbps up to 5.696 Mbps on a copper pair in fullduplex mode. EDS500 devices additionally use a proprietary extension of the SHDSL standardand can reach data rates of up to 15.000 Mbps. Wires with a diameter of 0.8 mm give a rangeof 13 km at 2.048 Mbps or 25 km at 192 kbps.

DSL interface (X3, X4, X5)

Electrical specification ETSI TS 101 524, ITU-T G.991.2, IEEE802.3-2008 Cl. 63

Protocol ETSI SDSL (ETSI TS 101 524 V 1.2.1)ETSI SDSL.bis (ETSI TS 101 524 V 1.2.2)ITU-T G.shdsl (ITU-T G.991.2) ITU-T G.shdsl.bis (ITU-T G.991.2)ITU-T G.hs (ITU-T G.994.1)IEEE EFM (IEEE 802.3)

Data rate up to 15 Mbps

Plug type Phoenix Contact MSTBT 2,5/3-ST

Cable shielded, twisted telecommunications cable,up to 25 km with cable diameter 0.8 mm

Circuit classification ES2 (acc. IEC 62368-1)

Auto crossover detection yes

Galvanic isolation 3 kV isolation voltage

Overvoltage protection Shield to earth ±6 kV, line to earth ±6 kV, line-line ±6 kV


Surge 1.2/50 µs, IEC 61000-4-5 6 kV line to earth, 6 kV line to line (level x), cri-terion B

Surge 10/700 µs, IEC 61000-4-5 6 kV line to earth, 6 kV line to line (level x), cri-terion B





Pin allocation DSL interface (X3, X4, X5)

Pin Signal

1 Line A (DSL A)

2 Line B (DSL B)

321

3 Functional earthing and cable shield

ADVICE

The SHDSL interface is designed as a 2 wire interface. For an effective overvoltageprotection it is mandatory to connect the functional earthing as well as the cable shield.

42 1KGT150966 V001 1


ADVICE

Any SHDSL port supports auto-crossover detection and correction, so signals A and B maybe interchanged.

ADVICE

The signal lines are short-circuit protected and may be connected while the module ispowered and working.

4.12.4 Serial interfaces (Con0 - Con1)

The serial interfaces of the device are signal compatible to RS-232. The connector is an RJ-12modular jack. The factory presets are speed 57600 Baud, no parity, 1 stop bit, no flow control.Via the serial interfaces the management console can be accessed .

Serial interfaces (Con0 - Con1)

Electrical specification ITU-T V.24, EIA RS-232 or EIA RS-422/485

Data rate 50 bps... 230.4 kbps

Plug type RJ-12 (6P6C)

Cable shielded RS-232 cable, up to 3 m

Adapter cable 500CAB06 1KGT038912R0001:RJ12 to SubD9F (DTE-PC)

Circuit classification SELV (acc. IEC 60950-1)

Galvanic isolation no

Overvoltage protection shield to earth ±4 kV







Pin allocation serial interface RS-232 (RJ-12)

RS-232 RS-232 PC SUB-D9

Pin Signal Direction Pin Signal Direction

1 DCD Output 1 DCD Input

2 CTS Output 8 CTS Input

3 RTS Input 7 RTS Output

4 GND - 5 GND -

5 RxD Output 2 RxD Input6 1

6 TxD Input 3 TxD Output

1KGT150966 V001 1 43


Pin allocation serial interface RS-485 half duplex (RJ-12)

RS-485 half duplex / 2-wire

Pin Signal Direction

1

2

3 B (-) bi-directional

4 GND -

56 1

6 A (+) bi-directional

Pin allocation serial interface RS-485 full duplex (RJ-12)

RS-485 full duplex / 4-wire

Pin Signal Direction

1

2 B (-) Input

3 B (-) Output

4 GND -

5 A (+) Input6 1

6 A (+) Output

4.12.5 Power connector (X1 and X3)

The EDS500 devices are equipped with a wide range power supply for voltages between 24and 60 Volts DC (power consumption see device label). The connector is a 4-pin Phoenix plugwith screw terminals.

Devices supporting Power over Ethernet (PoE) do have an additional 4-pin Phoenix powerplug. The input voltage depends on the Rubrik of the device.

The power lead has to be sufficiently fused and a manual interrupter for the power supplyhas to be installed (emergency switch). For the full effect of the overvoltage protection thefunctional earthing has to be connected and the hat rail has to be earthed.

The installation has to comply with national installation standards. An external, optionalpower supply can be used for connection to 230 VAC.



Power consumption (typical) specific for device, see device label

Current demand (peak) specific for device, see device label

Plug type Phoenix Contact MSTBT 2.5/4-ST

Reverse polarity protection yes

Circuit classification SELV (acc. IEC 60950-1)


Overvoltage protection line to earth ±4 kV, line to line ±2 kV

Electrical fast transient / Burst, IEC 61000-4-4 4 kV line to earth, 2 kV line to line (level 4), cri-terion A

Surge 1.2/50 µs, IEC 61000-4-5 4 kV line to earth, 2 kV line to line (level 4), cri-terion A

44 1KGT150966 V001 1





Ripple on DC power supply, IEC 61000-4-17 10% Un

Conducted emissions - asymetrical DC ports,common mode (0.15 MHz to 30 MHz), CISPR16-2-1/ EN 55016-2-1


IEC 61000-6-4

Pin allocation power supply (X1)

Pin Signal

1 24-60 V DC

2 Shield connected to functional earth (internally wired to pin 4)

3 GND

1 2 3 4



Operating voltage R0001: 51 ... 57 V DC

R0002: 24... 60 V DC ± 20%

Power consumption (typical) R0001: 280 W

R0002: 36 W

Current demand (peak) R0001: 5.7 A @ 51 V

R0002: 1.79 A @ 24 V / 0.72 A @ 60 V



Reverse polarity protection yes



Electrical fast transient / Burst, IEC 61000-4-4 4 kV line to earth, 2 kV line to line (level 4), cri-terion A

Surge 1.2/50 µs, IEC 61000-4-5 4 kV line to earth, 2 kV line to line (level 4), cri-terion A





Conducted emissions - asymetrical DC ports,common mode (0.15 MHz to 30 MHz), CISPR16-2-1/ EN 55016-2-1


IEC 61000-6-4

1KGT150966 V001 1 45


Pin allocation power supply PoE (X3)

Pin Signal

1 R0001: 51-57 V DC

R0002: 24-60 V DC


3 GND

1 2 3 4


WARNING

The device shall be powered off while accessing any of the connectors X1 (powerconnector) or X2 (alarm relay). Any other connectors (e.g. Ethernet, RS-232, RS-485 or DSL)are hot-pluggable while the device is operating.

WARNING

No plug shall be freely accessible in normal operation due to safety reasons.

ADVICE

Due to the internal overvoltage protection, interrupt any connection to ground of thedevice for the time of the measurement before you carry out isolation measurements. Thisincludes the earthing of the hat rail as well as all shields of all transmission lines and supplyfeedings. RJ-12 plugs or RJ-45 plugs can also establish earthing via the shield.

4.12.6 Alarm relay (X2)

The EDS500 devices are equipped with a potential free alarm output (relay with isolatedswitchover contact). This output corresponds to a device alarm and is activated when thedevice looses the power supply or the alarm LED is constantly on (see Chapter 4.13, "Displayelements"). The reason for the signaling of an alarm can be referenced in the system alarmtable (EDS500 Manual - Part 2: Alarms and alarm configuration).

Alarm output (X2)

Type of switch toggle (potential free)

Switching voltage 60 VDC / 25 VAC

Switching current 500 mA










46 1KGT150966 V001 1



Pin allocation alarm output (X2)

Pin Signal

1 & 2 Normal state

1 & 3 Alarm state

1 2 3 4

4 Common contact (connected to 1)

WARNING

The relay is designed for switching only safety extra low voltages.

4.12.7 Extension interface (EXT)

The plug of the proprietary expansion bus is designed as USB type B but uses a manufacturerspecific protocol.

The configuration parameters are stored directly on the device. In addition, a configurationstick can be connected to the expansion bus to save data externally, in example to exchangedefective devices easily.

ADVICE

Danger of damaging the device.

Do not connect any USB devices!

4.13 Display elements

LED Description Function

off Device is without power supplyPower Voltage Supply

green Power supply switched on

off Hardware fault or bootingReady Ready

green Device ready

off DSL unit in slave modeDSL1: Master

DSL2: Master

DSL Master mode

green DSL unit in master mode

off No active DSL linkDSL1: Link

DSL2: Link

DSL link established

green DSL link established

off No activity on the DSL interfaceDSL1: Activity

DSL2: Activity

DSL Activity

green Data is transmitted via DSL

off SFP not pluggedFo1: Module

Fo2: Module

SFP Module plugged

green SFP plugged

off no optical link activeFo1: Link

Fo2: Link

SFP link active

green Optical link established

1KGT150966 V001 1 47

Controls Device description

LED Description Function

off No activity on the optical inter-face

Fo1: Activity

Fo2: Activity

SFP activity

green Data is transmitted via the opti-cal interface

off DCD inactive on Con interfaceCon0: DCD

Con1: DCD

Con DCD active

green DCD active

off No activity on the Con interfaceCon0: Activity

Con1: Activity

Con activity

green Data is transmitted via Con

off No alarm

flash Warning or configuration error

Alarm Alarm

red Alarm

off No alarmFo Alarm SFP Alarm

red Alarm about the SFP inter-face(s)

off No alarmDSL Alarm DSL Alarm

red Alarm about DSL interfaces

off No connection

green Link established

Port 1-4: L Ethernet connection

flash Activity (send or receive)

off Data rate 10 MbpsPort 1-4: S Ethernet data rate

orange Data rate 100 Mbps

off port not configured for PoEPort 1-4: PoE En Power over Ethernetenabled green port configured for PoE

off no PoE device connectedPort 1-4: PoE Act Power over Ethernetactive green PoE device active supplied

Overall Power Alloca-tion

0% to 100% Total sum of power requestedby connected PoE devices

During start-up all displays light up shortly for about 1 second. As soon as the start-up hasbeen finalized successfully (about 30 seconds after switching on the device) the LED "Ready"switches to green.

4.14 Controls

4.14.1 Reset button

Pressing the reset button restarts the device and loads the saved configuration (startup-config or stick-config). As a protection against accidental triggering, the reset button is in aconcealed place and can be reached with a pointed tool (e.g. paper clip).

If the reset button is pressed for more than 5 s, the modem enters firmware update mode.

48 1KGT150966 V001 1

Device description Accessories

ADVICE

If the running configuration (= running-config) does not match the saved configuration (=startup-config) it is lost with the restart.

ADVICE

AllThe established communication connections will be lost temporarily during restart.

4.15 Accessories4.15.1 Optical SFP Modules

Accessories ordering information500SMM02 SFP Module multi-mode

500SMM02 R0001

short range up to 2 km

1KGT038901R0001

Accessories ordering information500SSM15 SFP Module single-mode

500SSM15 R0001

intermediate range up to 15 km

1KGT038902R0001


500SSM40 R0001

long range up to 40 km

1KGT038914R0001


500SSM80 R0001


1KGT038907R0001

Accessories ordering information500SDM20 SFP Module single-mode

500SDM20 R0001

bidirectional transceiver, downstream, longrange up to 20 km

1KGT038903R0001

Accessories ordering information500SUM20 SFP Module single-mode

500SUM20 R0001 1KGT038904R0001

1KGT150966 V001 1 49

Accessories Device description

Accessories ordering information500SUM20 SFP Module single-modebidirectional transceiver, upstream, longrange up to 20 km

Accessories ordering information500SDM40 SFP Module single-mode

500SDM40 R0001

bidirectional transceiver, downstream, longrange up to 40 km

1KGT038905R0001

Accessories ordering information500SUM40 SFP Module single-mode

500SUM40 R0001

bidirectional transceiver, upstream, longrange up to 40 km

1KGT038906R0001


500SSM90 R0001


1KGT038920R0001

4.15.2 Other accessories

Accessories ordering informationCP-E24_2.5 power supply

CP-E24_2.5 R0000 1SVR427032R0000

Accessories ordering information500LTD03 Line Transformer 7.5 KV, 1 - 1000 kHz

500LTD03 R0003 1KGT026600R0003

Accessories ordering information500NMA01 configuration adapter

500NMA01 R0001 1KHW027870R0001

Accessories ordering information500CAB06 RS-232 adapter cable RJ12 to SubD9F (DTE-PC)

500CAB06 R0001 1KGT038912R0001

50 1KGT150966 V001 1

Device description Accessories

Accessories ordering informationCP-E48/1.25 power supply

CP-E48/1.25 R2000 1SVR427031R2000

Accessories ordering informationCP-E48/5 power supply

CP-E48/5 R2000 1SVR427034R2000

1KGT150966 V001 1 51

Accessories Device description

52 1KGT150966 V001 1

Maintenance

5 MaintenanceEDS500 series devices do not require any maintenance.

There are no wear and tear parts.

There are no moving parts.

Thermal convection cools the device.

1KGT150966 V001 1 53

Maintenance

54 1KGT150966 V001 1

Glossary

6 Glossary

AC Alternating Current

CTS Clear to Send

DC Direct Current

DCD Data Carrier Detect

DSL Digital Subscriber Line

ERPS Ethernet Ring Protection Switching

ETSI European Telecommunications Standards Institute

GND Ground

IEC International Electrotechnical Commission

IEEE Institute of Electrical and Electronics Engineers

ITU-T International Telecommunication Union - Section Telecommuni-cation Standardization

kbps kbits per second

LAN Local Area Network

LED Light Emitting Diode

Mbps MBit per second

MIB Management Information Base

ms Millisecond

OSI Open Systems Interconnection Model

PC Personal Computer

RADIUS Remote Authentication Dial-In User Service

RFC Request for Comments

RTS Request to Send

SCADA Supervision, Control and Data Acquisition

SDSL Symmetric Digital Subscriber Line

SFP Small Form-factor Pluggable

SHDSL Single-Pair High-Speed Digital Subscriber Line

SNMP Simple Network Management Protocol

SNTP Simple Network Time Protocol (according to RFC 4330)

SSH Secure Shell

TCP/IP Transmission Control Protocol / Internet Protocol

UDP User Datagram Protocol

1KGT150966 V001 1 55

Glossary

USB Universal Serial Bus

VLAN Virtual Local Area Network

VPN Virtual Private Network

56 1KGT150966 V001 1

1KGT150966 V001 1 57

Note:

The specifications, data, design or other information contained in this document (the“Brochure”) - together: the “Information” - shall only be for information purposes and shall inno respect be binding. The Brochure does not claim to be exhaustive. Technical data in theInformation are only approximate figures. We reserve the right at any time to make technicalchanges or modify the contents of this document without prior notice. The user shall besolely responsible for the use of any application example or information described within thisdocument. The described examples and solutions are examples only and do not represent anycomprehensive or complete solution. The user shall determine at its sole discretion, or as thecase may be, customize, program or add value to the ABB Power Grids Germany AG productsincluding software by creating solutions for the end customer and to assess whether and towhat extent the products are suitable and need to be adjusted or customized.

This product is designed to be connected to and to communicate information and datavia a network interface. It is the users sole responsibility to provide and continuouslyensure a secure connection between the product and users or end customers networkor any other network (as the case may be). The user shall establish and maintain anyappropriate measures (such as but not limited to the installation of firewalls, applicationof authentication measures, encryption of data, installation of anti-virus programs, etc) toprotect the product, the network, its system and the interface against any kind of securitybreaches, unauthorized access, interference, intrusion, leakage and/or theft of data orinformation. ABB Power Grids Germany AG is not liable for any damages and/or losses relatedto such security breaches, any unauthorized access, interference, intrusion, leakage and/ortheft of data or information.

ABB Power Grids Germany AG shall be under no warranty whatsoever whether express orimplied and assumes no responsibility for the information contained in this document or forany errors that may appear in this document. ABB Power Grids Germany AG's liability underor in connection with this Brochure or the files included within the Brochure, irrespectiveof the legal ground towards any person or entity, to which the Brochure has been madeavailable, in view of any damages including costs or losses shall be excluded. In particular ABBPower Grids Germany AG shall in no event be liable for any indirect, consequential or specialdamages, such as – but not limited to – loss of profit, loss of production, loss of revenue, lossof data, loss of use, loss of earnings, cost of capital or cost connected with an interruption ofbusiness or operation, third party claims. The exclusion of liability shall not apply in the caseof intention or gross negligence. The present declaration shall be governed by and construedin accordance with the laws of Switzerland under exclusion of its conflict of laws rules and ofthe Vienna Convention on the International Sale of Goods (CISG).

ABB Power Grids Germany AG reserves all rights in particular copyrights and other intellectualproperty rights. Any reproduction, disclosure to third parties or utilization of its contents -in whole or in part - is not permitted without the prior written consent of ABB Power GridsGermany AG.

© Copyright ABB Power Grids Germany AG 2020

All rights reserved

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Manual Release 2 Part 1: Devices · 2020. 4. 30. · • four Ethernet interfaces (IEEE 802.3) for LAN connections with and without Power over Ethernet (PoE). • Up to two SHDSL

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