ABB 500NMD20 User manual

Type
User manual

This manual is also suitable for

Power Grids
EDS500 series - Ethernet & DSL switches
Part 1: Devices
Manual Release 2
Power Grids
EDS500 series - Ethernet & DSL switches
Part 1: Devices
Manual Release 2
Revision
Revision
Document identity: 1KGT150966V000 1
Revision: Date: Changes:
0 05/2019 Initial version
2 1KGT150966 V0001
Contents
Contents
1 Introduction..............................................................................................................................5
1.1 About the Manual EDS500 series - Ethernet & DSL switches..................................... 5
1.2 References..............................................................................................................................5
2 Safety Instructions..................................................................................................................7
2.1 Introduction........................................................................................................................... 7
2.2 Safety indication symbols.................................................................................................. 7
2.3 Applicable standards and directives for installation and operation......................... 8
2.4 Qualified personnel..............................................................................................................9
2.5 Intended use..........................................................................................................................9
2.6 Warnings and cautions....................................................................................................... 9
3 System concept......................................................................................................................11
3.1 Device family........................................................................................................................11
3.2 Network structures............................................................................................................ 12
3.2.1 Network structures: Line.................................................................................12
3.2.2 Network structures: Ring................................................................................ 13
3.2.3 Network structures: Star.................................................................................13
3.2.4 Network structures: Line with branch..........................................................14
3.2.5 Network structures: Redundant point-to-point connection....................14
3.2.6 Network structure: Line with redundant route via mobile
connection.......................................................................................................... 15
3.3 Functions overview............................................................................................................ 15
3.3.1 Remote control protocols and protocol integration..................................15
3.3.2 Monitor and interface dependencies............................................................16
3.3.3 Switching and Spanning Tree.........................................................................16
3.3.4 Virtual local Networks (VLANs)......................................................................16
3.3.5 IP routing.............................................................................................................17
3.3.6 SNMP.................................................................................................................... 17
3.3.7 Syslog...................................................................................................................17
3.3.8 Alarm System..................................................................................................... 17
3.3.9 SSH-Telnet console........................................................................................... 18
3.3.10 Web interface.....................................................................................................18
3.3.11 RADIUS.................................................................................................................18
4 Device description.................................................................................................................19
4.1 Compact device 500NMD01.............................................................................................19
4.1.1 Overview 500NMD01........................................................................................ 19
4.1.2 Front view and connectors 500NMD01........................................................20
4.1.3 Device data 500NMD01...................................................................................20
4.2 Compact device 500NMD02.............................................................................................21
4.2.1 Overview 500NMD02........................................................................................ 21
4.2.2 Front view and connectors 500NMD02........................................................ 21
4.2.3 Device data 500NMD02................................................................................... 22
4.3 Compact device 500NMD11............................................................................................. 23
1KGT150966 V0001 3
Contents
4.3.1 Overview 500NMD11.........................................................................................23
4.3.2 Front view and connector 500NMD11...........................................................23
4.3.3 Device data 500NMD11....................................................................................24
4.4 Compact device 500NMD20............................................................................................ 25
4.4.1 Overview 500NMD20........................................................................................25
4.4.2 Front view and connectors 500NMD20....................................................... 26
4.4.3 Device data 500NMD20...................................................................................26
4.5 Compact device 500NMD30............................................................................................ 27
4.5.1 Overview 500NMD30........................................................................................27
4.5.2 Front view and connectors 500NMD30....................................................... 28
4.5.3 Device data 500NMD30...................................................................................28
4.6 General data........................................................................................................................ 29
4.7 Connections........................................................................................................................ 30
4.7.1 Ethernet interfaces (Port1 - Port4)............................................................... 30
4.7.2 SFP Interfaces (Fo1 - Fo2)............................................................................... 31
4.7.3 DSL interfaces (X3 - X4)...................................................................................31
4.7.4 Serial Interfaces (Con0 - Con1)...................................................................... 33
4.7.5 Power connector (X1).......................................................................................34
4.7.6 Alarm-Relay (X2)................................................................................................ 35
4.7.7 Extension interface (EXT)............................................................................... 36
4.8 Display elements................................................................................................................ 36
4.9 Controls................................................................................................................................ 37
4.9.1 Reset Button...................................................................................................... 37
4.10 Accessories.......................................................................................................................... 37
4.10.1 Optical SFP Modules........................................................................................ 37
4.10.2 Other accessories............................................................................................. 38
5 Maintenance........................................................................................................................... 41
6 Glossary.................................................................................................................................. 43
4 1KGT150966 V0001
Introduction About the Manual EDS500 series - Ethernet & DSL switches
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 line
interface
Table 1: Parts of the Manual EDS500 series - Ethernet & DSL switches
1.2 References
[1] Individual Ident EDS500 series
Hardware data
sheets
Individual hardware data sheets of all
devices and auxiliary equipment
[2] Individual Ident EDS500 series
Operating
instructions
Individual operating instructions of all
devices and auxiliary equipment
1KGT150966 V0001 5
References Introduction
6 1KGT150966 V0001
Safety Instructions Introduction
2 Safety Instructions
2.1 Introduction
Read the following chapter before mounting and commissioning a system or device of the
EDS500 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 the
operating personnel. The provided information is necessary to know, if you configure a
EDS500 seriesdevice. The safety indication informs about a restriction etc.
WARNING
Hazardous situation which, if not avoided, could result in death or serious injury of
operating 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. This
symbol is used to indicate restrictions, prerequisites, and other information that is
important 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 and
connection and settings documents)
Warning Laser, read documentation (data sheets and connection and
settings documents)
Table 2: Safety indication symbols on EDS500 series devices
1KGT150966 V0001 7
Applicable standards and directives for installation and oper-
ation
Safety Instructions
2.3 Applicable standards and directives for
installation and operation
The devices of the ABB EDS500 series are produced in compliance with 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 EDS500
series is as follows:
Pollution degree 2
Only non-conductive pollution occurs except that occasionally a temporary conductivity
caused 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 installed
safely and in compliance with the applicable local laws and regulations.
Standard Explanation
DIN VDE 0100 Erection of power installations with nominal voltages up to
1000 VAC or 1500 VDC
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 installations
and their assembly into electrical power installations
EN 50310 (DIN VDE
0800-2-310)
Application of equipotential bonding and earthing in build-
ings with information technology equipment
Table 3: Standards
If the "Pollution degree 2" classification according to DIN VDE 0110 cannot be guaranteed or if
further protection against direct contact is required, mount the devices into suitable cubicles.
If devices of the EDS500 series are coupled with or supplied through power-frequency
voltage networks of overvoltage category III, take suitable protective action, such as
installing surge voltage protectors, to guarantee that overvoltage category II (1500 V max.
transient) according to DIN VDE 0110 applies at the terminal connectors. The secondary
circuit should be connected to protective terminal.
8 1KGT150966 V0001
Safety Instructions Qualified personnel
2.4 Qualified personnel
DANGER
The connectors or terminals of some components of the EDS500 series may conduct
dangerous 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 by
qualified 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 the
prevention of accidents
2.5 Intended use
The EDS500 series was developed, manufactured, tested, and documented observing the
relevant 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 normal
circumstances.
"Intended use of the product" means that the components of the EDS500 series are operated
and maintained exclusively in the form described in the product documentation. In particular,
intended use of the product requires observing the technical specifications of the process
circuits and power supply.
ABB does not accept any responsibility whatsoever for injury or damage resulting from
improper use or unauthorized repair.
2.6 Warnings and cautions
DANGER
Interrupt the power supply before mounting or dismounting the device.
WARNING
The EDS500 devices are intended only for use in restricted access area. For fire protection
the devices have to be mounted into suitable cubicles which are certified for the function
of a fire protection housing.
WARNING
The device shall be powered off while accessing any of the connectors X1 (power
connector)or X2 (alarm relay). Any other connectors (e.g. Ethernet, RS-232, RS-485or DSL)
are hot-pluggable while the device is operating.
1KGT150966 V0001 9
Warnings and cautions Safety Instructions
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 the
SFP interfaces.
ADVICE
EDS500 devices are industrial products (EN 55032 class A). In a domestic environment
this product may cause radio interference in which case the user may be required to take
adequate measures.
ADVICE
Electronic components are sensitive for electrostatic discharge.
To prevent damages to your devices deviate possibly occurring static charges before
touching the module or components. We recommend to wear a conductive grounded wrist
tape.
10 1KGT150966 V0001
System concept Device family
3 System concept
3.1 Device family
The EDS500 device family has been designed as multilayer switch and multi-purpose
communication device specifically for tasks of the process data communication. The devices
are employed for the data communication in future-oriented energy networks, for remote
meter reading, remote monitoring and control when feeding renewable energy into Smart
Grids.
The device have
four Ethernet interfaces (IEEE 802.3) for LAN connections.
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 distances
of up to 180 km at 100 Mbps.
up to 2 serial interfaces for configuration and / or for transmission of serial remote access
protocols.
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 as
comprehensive self monitoring functions to monitor the signal quality on copper cables and
optical lines as well as the device status.
High availability operation is possible as redundant structures like rings or parallel routes can
be set up.
These features cut out the EDS500 devices as the ideal communications technology for
telecontrol technology e.g. according to IEC 60870-5-104, IEC 60870-5-101 or IEC 61850. Old
copper networks become high performance IP networks with telecontrol and redundant
protection. In a mixed operation it is possible to keep the old telecontrol technology while
adding modern technology step by step (TCP/IP based transmission, VoIP phones).
The compact housing without any moving parts for easy mounting on hat rails, a wide range
power supply (24 to 60 V DC), low power consumption, an enhanced temperature range and
integrated overvoltage protection prove the concept of the EDS500 devices.
Device type Ethernet inter-
faces
SHDSL interfaces SFP interfaces RS-232 interfaces
500NMD01 4 1 - 1
500NMD02 4 2 - 2
500NMD11 4 1 1 2
500NMD20 4 - 2 2
Table 4: Device types
1KGT150966 V0001 11
Network structures System concept
Device type Ethernet inter-
faces
SHDSL interfaces SFP interfaces RS-232 interfaces
500NMD30 4 - - 1
Table 4: Device types
FO fiber
type
up to 2 km up to 15 km up to 20 km up to 40 km up to 80 km up to 180 km
Multi mode 500SMM02 - - - -
Single mode,
two fibers
- 500SSM15 - 500SSM40 500SSM80 on request
Single mode,
one fiber
500SDM20
500SUM20
500SDM40
500SUM40
Table 5: Ranges with optical fiber
Details on available SFPs can be found in Chapter 4.10.1, "Optical SFP Modules"
3.2 Network structures
Devices of the EDS500 family allow you to realize a wide variation of network structures like
point-to-point connections, lines, rings, stars, branches and meshed networks. The following
small examples should give an overview of possible network variants.
3.2.1 Network structures: Line
Control staon Staon 1 Staon 2
Staon 3
Cu
21 2
RTU RTU
RTU
1
Eth
Eth
LWL Cu
Eth
Eth
Control
system
Figure 1: Example for network structure: Line
Legend:
1 500NMD01
2 500NMD11
Various transmission media: SHDSL via copper cable (Cu), optical transmission via optical
fibre (FO).
All user stations (central station, branches) are connected via Ethernet (Eth) to the
transmission line.
12 1KGT150966 V0001
System concept Network structures
3.2.2 Network structures: Ring
Control staon Staon 1 Staon 2
Staon 3
Staon 6 Staon 5
Staon 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 500NMD11
2 500NMD02
3 500NMD20
Automatic redundancy: each station can be reached via two routes.
3.2.3 Network structures: Star
Control staon
Staon 1 Staon 2
Staon 4
Staon 3
41
RTU RTU
RTU
1
Eth
Eth Eth
Eth
RTU
1
Eth
2
LWL
3
Eth
Cu
Cu
Cu
Control
system
Figure 3: Example of network structure: Star
Legend:
1 500NMD01
2 500NMD02
3 500NMD11
4 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 V0001 13
Network structures System concept
3.2.4 Network structures: Line with branch
Control staon Staon 1
Staon 2
Staon 3
Staon 4
Staon 5
Cu
Control
2
1 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 with
branch
Legend:
1 500NMD01
2 500NMD02
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 the
corresponding 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 staon
Staon
Control staon
Staon
Cu
2
2
RTU
Eth
Eth
Cu
Cu
1
1
RTU
Eth
Eth
LWL
Control
system
Control
system
Figure 5: Example for network structure: Redundant
point-to-point connection
Legend:
1 500NMD02
2 500NMD20
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 selection
of the best available transmission line leads to better operating security. (see EDS500 Manual
- Part 2: Spanning Tree Protocol)
14 1KGT150966 V0001
System concept Network structures
3.2.6 Network structure: Line with redundant route via mobile
connection
Eth
Station 1
RTU
Station 2
Eth
RTU
2
Station 3
Eth
RTU
2
1
Cu
Eth
Eth
Eth
Station 4
RTU
1
Eth
Eth
Cu
Cu
Control station
Control
system
VPN tunnel
Internet
Mobil radio
modem
Mobil radio
modem
Figure 6: Example for network structure: Line with
redundant route via mobile connection
Legend:
1 500NMD01
2 500NMD02
The monitoring function of the EDS500 devices allows to monitor the network to the central
office. Failure of the primary connection (here: VPN tunnel through the internet) makes the
EDS500 device in station 4 to start a dial-in connection via the mobile network as secondary
connection. Placing the dial-in spots at the end of a line leads not only to a line protection
when the VPN tunnels is lost, but also for any loss of connection between the stations 1 to 4.
3.3 Functions overview
3.3.1 Remote control protocols and protocol integration
As EDS500 devices support TCP/IP based protocols like IEC 60870-5-104 as well as the
established RS-232 based serial protocols like IEC 60870-5-101 it is possible to transport
these (and other) protocols in the same network simultaneously. This mixed operation allows
to modernize existing SCADA networks step by step with the future-proof IP technology.
Numerous established serial protocols can be transported with this method among others
IEC 60870-5-101, Modbus, RP570/571, SEAB-1F and many more.
Using serial tunnelling improves existing serial networks with the advantages of packet
oriented IP networks: protection with redundant connections (rings, backup connections),
control and monitoring as well astransmission via modern DSL connections or optical
connections.
The devices support native IEC 60870-5-101 and IEC 60870-5-104 which cuts them out for the
future oriented, step-by-step expansion during the network modernization: The integrated
conversion function from IEC 60870-5-101 to IEC 60870-5-104 and back allows the use
of a modern IEC-104 based central office and switching the network to packet oriented
IP transmission technology while the existing IEC-101-RTUs can still be used due to the
conversion function. The transmission technology would already exist if these RTUs shall be
replaced with modern IEC 60870-5-104 devices.
Due to the integrated IEC 60870-5-104 support of EDS500 devices the communications
technology can be monitored directly from a IEC 60870-5-104 central office.
1KGT150966 V0001 15
Functions overview System concept
Serial protocols that use the RS-232 interface can be transported via IP networks with the
help of EDS500 devices. The serial data stream gets converted into individual packets and
sent to one or more counter parts that re-assemble the packets into a serial data stream. To
avoid 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 is
known. 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 the
response 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 reversely
linked to other port states or the monitor (Link Fault Pass Through). If e.g. the primary
connection should fail, then a secondary connection can be established with a dial-up
modem.
3.3.3 Switching and Spanning Tree
The primary application of EDS500 devices is that of a (Layer 2) switch. As the devices not
only operate on the layer 2 of the OSI layer model but can also deal with data of the routing
layer 3 they are also called multilayer switches.
In the operation mode of a layer 2 switch the device handles incoming Ethernet frames by
forwarding 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 target
addresses are forwarded only to those ports for which is known that the target address
can be found beyond them. Such a network can be expanded in a self-learning way. An
automatic aging process makes sure that once learned network structures can be modified
and 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 active
parallel 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 ERPS
protocol(ITU-T G.8032). These protocols are capable to enable or disable redundant paths if
required 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 this
feature 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 same
infrastructure: RTUs and IP telephones can't see each other. Access ports and trunk ports
have to be differentiated. Access ports form the outer edge of the VLAN infrastructure
whereas the trunk ports connect the VLAN components (switches).
16 1KGT150966 V0001
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 or
participate in a routed environment.
The EDS500 devices use the Routing Information Protocol (RIPv2, RFC2453) to automatically
create routing tables and synchronization. Classless Inter-Domain Routing (CIDR) is
supported. The extensions Triggered Updates and Split Horizon grant in general switching
times 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 and
control network devices. A central office can request the runtime parameters and signal
deviations from the ordinary state. The protocol can be read by machines and is transmitted
in code as opposed to e.g. the Syslog protocol that sends messages as plain text. SNMP
packets are (usually) transmitted via UDP/IP.
The devices of the EDS500 series implement SNMP in the versions SNMPv1 (RFC 1155, RFC
1156, 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 by
several MIB modules (Management Information Base). They are standardized and consist of:
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 internal
parameters. 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 usually
uses UDP/IP and consists of human readable plain text messages including information
about severity and a times tamp.
The EDS500 devices have a log filer on the devices themselves. If a SNTP server (Simple
Network Time Protocol) has been set, then the time stamp is a real date, otherwise it shows
the system up time. In addition, log entries can be sent to a central Syslog server at the time
of the event. The EDS500 devices use a numbered Syslog message scheme so that missing
messages 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 a
Syslog message.
1KGT150966 V0001 17
Functions overview System concept
For the critical level Alarm, a relais is switched that can control a signalization device. Unlike
spontaneous events that do not lead to an alteration of the operational state, alarms are
triggered 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. For
some 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 command
interpreter. Telnet is a network protocol to access the console of a remote device, SSH offers
additionally 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 monitor
parameters. It is a read-only mode. The operation mode "configuration" has full access to the
system 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 interpreter
the web server of the EDS500 devices offers a comfortable user-interface. With an existing
IP connection to a device it can be configured and monitored fully using an ordinary web
browser.
3.3.11 RADIUS
RADIUS (Remote Authentication Dial-In User Service) is a network protocol to authenticate
logins. The RADIUS server runs as a central service e.g. in the central office. If you want to
connect to an arbitrary device, user name and password are sent to the RADIUS server that
in return tells the device if the login was successful. If so, access to the network device is
granted.
The EDS500 devices allow RADIUS authentication for the services Telnet, SSH, web server and
console.
18 1KGT150966 V0001
Device description Compact device 500NMD01
4 Device description
4.1 Compact device 500NMD01
4.1.1 Overview 500NMD01
2-wire Cu
Console0DSL 1
Tunnel
CFG
SHDSL-Interface
local LAN
1
2
3 4
Intelligent Switch
(Layer 2 or 3)
Configuration
and Monitoring
RS-232/
RS-485
Figure 7: Block diagramm 500NMD01
Legend:
1 Ethernet Port 1
2 Ethernet Port 2
3 Ethernet Port 3
4 Ethernet Port 4
The compact modem 500NMD01 has one wide area network SHDSL interface and four
Ethernet interfaces. There is one serial interface available for configuration or as process
interface. A configurable alarm relais and an extension interface (e.g. to use the configuration
stick) complete the device.
1KGT150966 V0001 19
Compact device 500NMD01 Device description
4.1.2 Front view and connectors 500NMD01
Figure 8: Front view of the
Ethernet DSL switch 500NMD01
Figure 9: Connector plan of the
Ethernet DSL switch 500NMD01
Connectors Type
Port1 - Port4 "Ethernet interfaces (Port1 - Port4)",
page 30
Con0 "Serial Interfaces (Con0 - Con1)", page 33
EXT "Extension interface (EXT)", page 36
X1 "Power connector (X1)", page 34
X2 "Alarm-Relay (X2)", page 35
X3 "DSL interfaces (X3 - X4)", page 31
Table 6: Interfaces 500NMD01
4.1.3 Device data 500NMD01
The interface data can be found in Chapter 4.7, "Connections"
Mechanical layout
Dimensions 99 x 45 x 115 mm (H x W x D)
Mounting 35 mm DIN-rail
Cooling thermal convection (no moving parts)
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
20 1KGT150966 V0001
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ABB 500NMD20 User manual

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User manual
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