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Contents:
1 . C o p y r ig h t s . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . 5
2 . I n t r o d uc t i o n . . . . . . .. . . . . . .. . . . . . .. . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. 6
2 . 1 . T h i s m a n ua l . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . 6
2 . 2. U s e o f s y mb o ls . . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . . 6
2 . 3. A b b re v i at i o n s . . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . 6
2 . 4. R el a te d d o cu me n ts . . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. 7
2 . 5. D oc u me nt r e vi s io ns . . . .. . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . . 7
3 . F u nc t io n al o v er v ie w . . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. 8
3 . 1. P r oc e ss c o mm u ni c at i on . . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. 8
3 . 2. S Y S 6 00 C w o r kp l ac e s . . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . 9
3 . 2. 1 . W o r k pl a c e s . . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . 93 . 2. 2 . P r oc e ss D i sp l ay . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . 9
3 . 2. 3 . E v en t D i sp l ay . . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . . 1 1
3 . 2. 4 . A l ar m D i s p la y .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . 1 2
3 . 2. 5 . B l oc k in g D i sp la y . . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . 1 3
3 . 2. 6 . T re nd s D i sp l ay .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . . 1 4
3 . 2. 7 . M e as u re m en t R e po r ts D i sp l ay . . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . 1 5
3 . 3. U s er m a na g em e nt . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. 1 6
3 . 4. L o ca l iz a t io n . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. 1 6
3 . 5. Ti m e s y nc h ro n iz a ti o n . . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . . 1 6
3 . 6. R e du n da n cy . . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . 1 7
3 . 7 . M i r r o ri n g . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . . .. . 1 73 . 8. O P C c o nn e ct i vi t y . . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . 1 8
3 . 9 . C y b er s e c ur i t y . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . . 1 8
3 . 1 0. K e y b e n e f i t s . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . . .. . . . . . .. . . 1 9
4 . A p pl i ca t io n a re a s . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . . 2 0
4 . 1. O v e rv i e w . . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . . 2 0
4 .2 . S YS 6 00 C a s C om mu ni ca ti on G at ew ay . . .. .. .. . .. .. . .. .. .. . .. .. .. . .. .. .. . .. . 2 1
4 . 3. S Y S 6 0 0C a s C o nt r ol S y st e m H S I . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. 2 2
4 . 4. S Y S 6 0 0C a s C om m un i ca t io n S e rv e r . . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . 2 4
5 . P r o d uc t s t r uc t u re . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . . .. . . . . . .. . . 2 6
5 .1 . O rd er in g, d el iv er y, a nd l if e c yc le p ol ic y . .. . .. .. . .. .. .. . .. .. .. . .. .. . .. .. .. . .. .. . 2 6
5 . 2. S o ft w ar e o pt i on s . . . . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . . 2 7
5 .2 .1 . C om mu ni ca ti on p ro to co ls . .. .. . .. .. .. . .. .. . .. .. .. . .. .. .. . .. .. .. . .. .. . . 2 7
5 . 2. 2 . H S I f e at u re s . . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . 2 8
5 . 2. 3 . S y st e m f u nc t io n s .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . 2 9
5 . 3 . C o m pu t e r o p t io n s . . . . . . .. . . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . . . . . .. . 3 2
6 . H ar d wa re c h ar a ct e ri s ti c s . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . 3 4
6 . 1. H a r d w ar e . . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . . 3 4
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6 .2 . E MI / EM S a nd e nv ir on me nt al s ta nd ar d c om pl ia nc e . . .. .. . .. .. .. . .. .. .. . 3 5
7 . C ap a ci t y a n d p er f or m an c e . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . 3 7
7 . 1. S Y S 6 0 0C c a pa c it y . . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . 3 7
7 . 2. D a ta l o gg i ng c a pa c it y .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . 3 7
7 . 3. P r oc e ss c o mm u ni c at i on c a pa c it y . . . .. . .. . . .. . .. . . .. . .. . . .. . .. . . .. . . .. . .. . . .. . .. . 3 8
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Copyrights1.
The information in this document is subject to change without notice and should not be
construed as a commitment by ABB Oy. ABB Oy assumes no responsibility for anyerrors that may appear in this document.
In no event shall ABB Oy be liable for direct, indirect, special, incidental or consequential
damages of any nature or kind arising from the use of this document, nor shall ABB Oy
be liable for incidental or consequential damages arising from use of any software or
hardware described in this document.
This document and parts thereof must not be reproduced or copied without written per-
mission from ABB Oy, and the contents thereof must not be imparted to a third party
nor used for any unauthorized purpose.
The software or hardware described in this document is furnished under a license andmay be used, copied, or disclosed only in accordance with the terms of such license.
Copyright 2010 ABB. All rights reserved.
Trademarks
ABB is a registered trademark of ABB Group. All other brand or product names men-
tioned in this document may be trademarks or registered trademarks of their respective
holders.
Guarantee
Please inquire about the terms of guarantee from your nearest ABB representative.
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Introduction2.
T hi s m an ua l2.1.
This manual provides product information on the Compact System SYS 600C (later
referred to as SYS 600C). It gives an overview of the product functionality, key benefits,
application areas, technical details, and capacity and performance.
U s e o f s y mb o ls2.2.
This publication includes the following icons that point out safety-related conditions or
other important information:
The information icon alerts the reader to relevant facts and
conditions.
Abbreviations2.3.
Descr iptionAbbr eviation
C o m pa c t f l a s hCF
C e n t ra l P r o c e s si n g U n i tCPU
D i st r ib u te d C o mm o n O b je c t M o de lDCOM
D i s t ri b u t ed C o n t ro l S y st e mDCS
D y n a mi c H o s t C o n f i gu r a t io n P r o t oc o lDHCP
D u a l i n -l i n e p a c ka g eDIP
Electromagnetic InterferenceEMI
Electromagnetic ShieldingEMS
H u m an S y s te m I n t e r f a ceHSI
I n t e g ra t e d D r i ve E l e c tr o n i csIDE
I n t e l li g e n t E l e c tr o n i c D e v ic eIED
I n t e r ne t P r o t oc o lIP
L i gh t E mi t ti n g D i od eLED
M e an T im e B e tw e en F a il u reMTBF
Network Control Center NCC
O L E f o r P r oc e ss C o nt r olOPC
P r o d uc t A u t h or i z a ti o n F i l ePAF
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Descr iptionAbbr eviation
Personal Computer PC
Adobe Acrobat file formatPDF
S i m pl e N e t wo r k M a na g e m en t P r o t oc o lSNMP
S i m pl e N e t wo r k T i me P r o t oc o lSNTP
P r od u ct n a meS YS 6 00
P r od u ct n a meS YS 6 00 C
Universal Serial BusUSB
Related documents2.4.
Document IDN a me o f t h e d o cu m en t
1MRS756664S Y S 6 0 0 9 . 3 I E C 6 1 85 0 S ys t em D e si g n
1MRS756634S Y S 6 0 0 9 . 3 I n st a ll a ti o n a n d A d mi n is t ra t io n
Manual
1MRS756646S Y S 6 0 0 9 . 3 S ys t em C o n fi g ur a ti o n
1MRS757257S Y S 6 0 0 C U s er ' s G u id e
Document revisions2.5.
Histor yDateS o f t w ar e r e v i si o n
number
Version
D o c um e n t c r e a te d30.6.20101.93A
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F u nc t io n a l o v e rv i e w3.
SYS 600C is a modular and scalable automation system that can be configured and
tailored for various applications and needs. This chapter gives an overview of the mainfunctionality.
P ro c es s c o m mu n i c ati o n3.1.
The process communication is used to connect various process devices, such as IEDs,
RTUs, PLC, and Meters to SYS 600C. A large selection of communication protocols
and interfaces, such as IEC 61850, IEC 60870-5-10x, DNP 3.0, Modbus, LON, and SPA
are supported. See 5.2.1,Communication protocolsfor the full list of supported protocols.
The process communication is used to retrieve data from the connected devices, such as
status indications, events, and analog values, as well as to write data to the devices, such
as commands, set points, and parameters. The data retrieved through the process commu-
nication can be archived, presented on the HSI, or forwarded to other systems.
See 3.8,OPC connectivityfor more connectivity options.
R e mote c o mmun i c a tio n
The remote communication is used to connect SYS 600C to upper level systems, such
as Network Control Systems. The most common protocols, such as IEC 60870-5-101/104,
DNP 3.0, and RP570 are supported.
See 5.2.1,Communication protocolsfor the full list of supported protocols.
Communication gateway
The communication gateway functionality provides a gateway between process devices
and up to eight upper level systems (NCC). The main tasks of the gateway are signal
rerouting and protocol conversions. SYS 600C also supports signal grouping and possib-
ility to introduce custom mapping logic in the gateway engine.
The following table lists the protocols that are supported by the gateway engine.Ta b le 3 . 1- 1 P r ot oc o ls s u pp or t ed by t h e g at e wa y e ng i ne
TypePr otocol
MasterSPA
MasterL AG 1 .4 ( LO N)
M a st e r a nd s l a v eIEC 60870-5-101
MasterIEC 60870-5-103
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TypePr otocol
M a s te r a nd s l a veIEC 60870-5-104
ClientIEC 61850-8MasterANSI X3.28 - AB (ABB)
M a s te r a nd s l a veR P 5 70
M a s te r a nd s l a veD NP 3 .0 ( Su bs et 3 )
M a s te r a nd s l a veModbus
ClientO P C D A , A & E
ServerO P C D A , A & E
S Y S 6 0 0C w o r k pl a ce s3.2.
Workplaces3.2.1.
SYS 600C can be equipped with 1 to 5 workplaces to be used at the same time. The
workplace provides means for the operator to configure the system and supervise and
interact with the process. Each SYS 600C computer can have a local workplace, but the
workplaces can also be distributed to other computers and locations.
The workstations can be distributed over a network using TCP/IP. It can be a LAN,
internet, or mobile wireless communication.
Each workplace can be used for engineering, supervision, and operation of the process.
The possibilities are defined by the access rights given to the user in question. Also the
layout and functions of the workplaces can be fully customized for each user.
The distributed workplace concept is based on available remote access techniques, typ-
ically Microsoft Terminal Server or Citrix Access Essentials. Any PC or other web-
enabled device can be used as a workstation without installing any additional software.
P r oc e ss D i sp l ay3.2.2.
One of the display types of the workplace is the process display. The process display isused to represent the process and primary equipment, typically as a single-line diagram
with graphical symbols for primary devices, such as breakers, disconnectors, and trans-
formers. The process display is normally built with symbol libraries, but also customized
symbols and displays can be built.
The process display supports zooming, panning, and decluttering for efficient and clear
visualization of the information.
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Through the process display the user can continuously monitor the process, such as
switches and measurements, as well as access the control dialogs to issue commands,
set parameters, and so on.
C_20090111. png
Figure
3.2.2-1
Process Display
S y s tem S e l f S up e r vi s i o n
The System Self Supervision function shows the status of the various system components
in a display for easy and fast system maintenance and fault localization. The display
shows information about the base system, applications, redundancy, communication
lines, IEDs, and so on. The system can also receive status information from any device
or external software reporting to the Windows event log, for example, disks, power
supplies, and computer boards. Communication equipment and peripheral devices that
support SNMP can also be supervised by using an SNMP-OPC gateway.
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A 060527. P NG
Figure3.2.2-2An example of typical system supervision display
Event Display3.2.3.
The event display shows events stored in the event database, as shown in Figure3.2.3-
1. It supports easy sorting and filtering of the events to make the event analysis as easy
as possible. It can also be freely configured to display the information, the layout, and
coloring of the events.
It is also possible to have predefined filters that can easily be accessed from toolbars and
menus.
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C_20090112. png
Figure3.2.3-1Event Display
A l ar m D i sp l ay3.2.4.
The alarm display shows the alarms of the system in a list, as shown in Figure3.2.4-1.
It supports easy sorting and filtering of the events to make the alarm analysis as easy as
possible. It can also be freely configured to display the information, the layout, and col-
oring of the alarms.
It is also possible to have predefined filters that can easily be accessed from toolbars and
menus.
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C_20090113. png
Figure3.2.4-1Alarm Display
Blocking Display3.2.5.
The blocking display lists all active blockings in the system. The display can also be
used to activate new blockings. The following aspects of a signal can be blocked:
updating, control, event logging, alarm generation, event printout, and post-processing.
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C_20090114. png
Figure3.2.5-1Blocking Display
Tr e n ds D i s p la y3.2.6.
The trends display is an application that collects data and visualizes the data in a
numerical or graphical form. It is used for following up and analyzing data in time frames
from minutes to one month. The data is logged cyclically in intervals of 30 seconds, 1,
2, 5, or 10 minutes. The trends display can log and show any type of data available in
the process database.
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A 050224. jpg
Figure3.2.6-1Trends Display
M e a su r e men t R e p o r ts D i s p la y3.2.7.
The measurement reports display is an application that collects data and visualizes the
data in a numerical or graphical form. The measurement reports display is used to logand report data during longer periods than the Trends Display, and it is dedicated for
energy, current, voltage, temperature, and frequency reports.
The available time ranges for the reports:
Hourly report (time resolution: 1, 2, 3, 5, 6, 10, 15, 20 or 30 minutes)
Daily report (time resolution: 15, 30 or 60 minutes)
Weekly report (time resolution: 1 day)
Monthly report (time resolution: 1 day)
Yearly report (time resolution: 1 month)
Quick Report on an hourly basis (time resolution: according to a period cycle)
Quick report on a daily basis (time resolution: according to a period cycle) )
Quick report on a weekly basis (time resolution: 1 day)
Quick report on a monthly basis (time resolution: 1 day)
Quick report on a yearly basis (time resolution: 1 month)
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C_20090116. png
Figure3.2.7-1Measurement Reports Display
U s er m a na g em e nt3.3.
Users of the system are given access rights according to the needs. The user sessions
can be limited in time. The users can be given the right to view, control, or configurethe different parts of the system or process.
Localization3.4.
It is possible to translate the user interface to any language that fits into the boundaries
of the graphical user interface, that is, size, position, and direction of texts and icons.
The system also supports several languages simultaneously enabling operators to work
with the system in their native language. The language is part of the user profile and is
selected automatically while logging into the system.
T i me s y n c hro n i za ti o n3.5.
SYS 600C can be synchronized by an external GPS clock. This is typically done using
SNTP over the local area network or through a serial port using a protocol provided by
the clock manufacturer. It is also possible to add a PCI card into the computer to retrieve
the clock signal. The IEC 61850 client of SYS 600C includes an SNTP client that can
be used to set the system clock. SYS 600C can also be synchronized by the Network
Control System over a remote communication protocol.
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SYS 600C can also be used as a clock master for the connected IEDs according to the
used protocol.
Redundancy3.6.
S y s tem r e d un d a nc y
The availability of a SYS 600C system can be further improved by redundant servers
configured in a hot stand-by mode (HSB). In this configuration, one computer is active
and receives and processes all data from the process. It also manages the displays and
provides data for the displays. At the same time, all process data and configuration data
is shadowed over to the stand-by computer. The stand-by computer is in the same state
as the active one. If the active computer breaks down, the stand-by computer takes over
the process communication and continues to manage the process. In this way, the processcan be operated and supervised even if one of the computers fails.
Communication redundancy
Redundant communication lines mean that two or several connections between the
master and the slave form a logical connection. One of the connections is active and if
the active connection fails, another connection is used instead.
Redundant communication lines are supported for IEC 60870-7-101 slave, RP-570 slave,
and IEC 60870-7-104 master and slave protocols.
Redundant LAN connections are supported for, for example, IEC 61850 communication
using dual LAN connections according to IEC 62439/PRP. See SYS 600 IEC 61850
System Design for details.
The network chipset used in the SYS 600C supports Intel Teaming with Advanced
Networking Services. Teaming can be used to provide additional fault tolerance in case
of a port or a switch failure, as well as for load balancing and link aggregation. The
restrictions and possibilities of interface teaming are described in the Intel Advanced
Networking Services documentation.
Mirroring3.7.
The process data mirroring provides powerful means for sharing process data in a SYS
600C/SYS 600 network with minimal engineering effort. This can be used to build
hierarchical systems, for example, with one main control center, some regional control
centers and more local control centers or substations. It can also be used for load distri-
bution in large systems. The data mirroring can also be used to share data between a
SYS 600C HSI and SYS 600C Gateway, for example, when communication protocols
with one master are used.
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The advantage of using data mirroring instead of standard communication, such as IEC
60870-5-104, is that the data mirroring communication is much more efficient and the
required engineering work to build up the system is minimal. Several special functions,
such as event buffering during communication breaks and handling of hot stand-by
configurations, are automatically taken care of.
The data mirroring takes place between a host and an image. The host is the source for
the process data and the image is a copy of the process data. The SYS 600C node that
receives the process data, for example, through IEC 61850 or LON, is the host. This
process data can be mirrored to another SYS 600C node, which acts as an image.
OPC connectivity3.8.
OPC is a de-facto interface standard connecting various devices and systems within the
process automation industry. OPC is becoming more and more used and accepted alsoin other application areas and within the power industry. It defines exchange of data
between a server and a client. The server provides data and the client uses the data. The
client can also write data (commands, parameters, and so on) to the server.
SYS 600C provides OPC connectivity both in forms of clients and servers, that is, SYS
600C can receive data from a device or system that provides its data through an OPC
server. SYS 600C can also provide its data to another system that acts as a client.
C y be r s e cu r it y3.9.
The product is designed to fulfill high cyber security requirements. It supports the fol-
lowing functions:
User authentication
Configurable password policies
Encrypted user name and password
Configurable Use Banners
User Authorization
Users can be granted access rights to functions as required
Communication encryption
Encryption of TCP/IP connections (IPSec/VPN)
Virus protection Operating System Security Patching
System hardening
Closing of unused ports and services
Security policies
Robustness testing as an integrated part of the development process
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K ey b en ef it s3.10.
SYS 600C offers the following highlights and key benefits:
Solid-state hardware technology Enables use in harsh environments
Reduces maintenance needs
Support for wide operating temperature range
Scalability
Enables system sizes ranging from tens to thousands of data points
Flexible system configuration, ranging from communication gateway to control
system HSI solution with integrated communication gateway functionality to
communication server in large SA system and network control system
Conformance to a wide range of communication standards and de-facto com-
munication standards
Powerful hardware with large number of serial and ethernet interfaces
High availability
Proven and tested hardware with high MTBF value
Support for redundant (Hot Stand-By) system servers
Support for redundant remote communication lines
Support for redundant power supplies for both AC and DC power supply
Engineering efficiency
Integrated tools for system engineering, for example expansion of databases,
communication system, HSI clients, and users
Support for third-party software and hardware through the use of open interface
and communication
Easy to upgrade with latest software versions that enable use of new and
innovative functionality Powerful HSI
Powerful data collection to be used in single line diagrams, process displays,
trends, reports, control, alarms, and events
Process displays with support for zoom/pan/de-clutter
Trends with zoom/pan, multiple graph types, ruler, cut, and paste
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Application areas4.
Overview4.1.
SYS 600C provides innovative solutions for different tasks and operations in the power
automation process, from Communication Gateway functionality to full-fledged
redundant control system applications. SYS 600C is a solid-state computer utilizing
information distributed in different locations and hence enabled for a large variety of
tasks. SYS 600C is suitable in, for example, Substation Automation Systems for both
Utility and Traction applications, as well as in Process Industries with distributed Intel-
ligent Electronic Devices (IEDs). SYS 600C is also designed to be used as a Communic-
ation Server in medium and large Remote Control Systems (SCADA).
SYS 600C is designed as an open system, which complies with all widely used commu-
nication standards. In addition, it supports the implementation of project-specific monit-
oring, control, and automation tasks in the field of Substation Automation and Power
Automation. The SYS 600C Human Machine Interface (HSI) provides an intuitive and
easy-to-use user interface for efficient and safe operator actions.
The consistent use of known technologies and intuitive user interfaces ensures an easy
entry level for new SYS 600C users.
F i e l ds o f a p p l ic a ti o n
SYS 600C is designed to be used in a wide range of applications in both Electrical Util-ities and Industries.
When using SYS 600C in substations, the main application is as a Communication
Gateway to the upper level system or it is used as a powerful Control System HSI. The
two can also be combined in the same SYS 600C system and forms hence a combined
Communication Gateway with Control System HSI. SYS 600C can be used in any type
of substation.
In large substations and in medium- and large-sized remote control systems, SYS 600C,
thanks to the large amount of communication ports, is an unbeatable Communication
Server solution (also known as a front-end computer).
SYS 600C fits also well into various types of control applications, especially where a
solid-state type of computer is required and different kinds of distributed Intelligent
Electronic Devices (IEDs) together with other type of bay devices (RTU) are to be con-
nected to the system. Connections to process automation systems are well supported in
SYS 600C thanks to OPC server and client integration.
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S Y S 6 0 0C a s C o mm u ni c at i on G a te w ay4.2.
SYS 600C is used for multiple purposes at a substation level. The Communication
Gateway function is one of the tasks that can be utilized at the substation level to enableconnections to Remote Control Centers (SCADA). SYS 600C Communication Gateway
can connect to, and interact with, eight (8) different Remote Control Centers.
The SYS 600C Communication Gateway function can be configured as a single gateway
as shown in Figure4.2-1.
C_20090101. bmp
Figure
4.2-1
SYS 600C as Communication Gateway
Utilizing the OPC interface in SYS 600C enables an easy and efficient integration of
IED signals and information into a DCS system, as shown in Figure4.2-2.
This configuration is typically applied in Process Industries with distributed Intelligent
Electronic Devices (IEDs).
C_20090102. bmp
Figure4.2-2SYS 600C Communication Gateway interface to Distributed Control Systems (DCS)
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For increased availability, SYS 600C can easily be configured as a redundant Commu-
nication Gateway as shown in Figure4.2-3.
C_20090103. bmp
Figure
4.2-3
SYS 600C as Redundant Communication Gateway
SYS 600C also supports redundant remote communication lines between SYS 600C and
Remote Control Center as shown in Figure4.2-4.
C_20090104. bmp
Figure
4.2-4
SYS 600C as Communication Gateway with redundant communication lines to
Remote Control Center
SY S 6 00 C as C ont ro l S ys te m HS I4.3.
SYS 600C HSI provides numerous options for monitoring and controlling a connected
process. SYS 600C handles both the HSI functionality and the Communication Gateway
functionality. In this way SYS 600C can act both as a Communication Gateway, enabling
a remote connection to control centers, as well as the local control system and HSI user
interface on a station level.
The SYS 600C HSI function can be configured as a single and local Control System HSI
configuration as shown Figure4.3-1.
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C_20090105. bmp
Figure
4.3-1
SYS 600C as Control System HSI
To reduce the number of devices at the substation level, SYS 600C Control System HSI
and the Communication Gateway function can be combined in the same computer as
shown in Figure4.3-2.
C_20090106. bmp
Figure
4.3-2
SYS 600C as combined Control System HSI and Communication Gateway
For increased availability, SYS 600C can be configured as a redundant Control System
HSI and integrated Communication Gateway with redundant communication lines to
Remote Control Center as shown in Figure4.3-3.
C_20090107. bmp
Figure4.3-3SYS 600C as redundant Control System HMI and integrated Communication Gateway
SYS 600C can also be utilized as an HSI for station RTU as shown in Figure4.3-4.
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C_20090108. bmp
Figure4.3-4SYS 600C as Control System HSI for RTU
S Y S 6 0 0C a s C o mm u ni c at i on S er v er 4.4.
SYS 600C can function as a powerful Communication Server in medium and large
Remote Control Center configurations as well as in large Substation Automation
applications.
SYS 600C with its large number of serial communication ports and LAN ports in com-
bination with the solid-state technology offers an excellent Communication Server
solution. The Communication Server solution is offered and available as a part of larger
SYS 600 or SYS 600C configurations as shown in Figure4.4-1and Figure4.4-2.
C_20090109. bmp
Figure4.4-1SYS 600C as Communication Server in a Remote Control Center system
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C_20090110. bmp
Figure4.4-2SYS 600C as Communication Servers in a large Substation Automation system
By utilizing the SYS 600C Communication Server solution the processing load in the
main system servers SYS 600 or SYS 600C is reduced. The Communication Servers are
connected to the process devices and provide the main system servers SYS 600 or SYS
600C with process information.
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Product structure5.
O rd er in g, d el iv er y, a nd l if e c yc le p ol ic y5.1.
SYS 600C is a product that combines the robust solid-state computer with the operating
system and the SYS 600 software.
Computer
The computer exists in a number of fixed configurations that is selected during ordering.
The fixed configurations concern the parts supplied by the ABB product unit. There are
no options that can be ordered separately.
To replace the faulty SYS 600C computers, customers with SYS 600C products can onlyorder a SYS 600C spare computer without the SYS 600 license. If the SYS 600C computer
configuration needs to be changed for some reason, the only possibility is to order a
spare computer and replace the original one with the spare one.
SYS 600C has three PCI slots for additional PCI cards. SYS 600C does not include any
additional cards by default. Additional cards, such as the XLON card, can be purchased
from external suppliers.
Operating systems
The operating system can be upgraded after the delivery. The operating system upgrades
are not delivered from the ABB product unit, but can be purchased from an external
supplier. The operating system must be compatible with both the computer and the SYS
600 software. Operating system security updates can be applied, but operating system
service pack must be approved for the SYS 600 software.
S YS 6 00 s of tw ar e
The SYS 600 software can be extended or upgraded to new versions. This is done with
the normal ordering tool with the upgrade/extension options. SYS 600 Hotfixes, and
Service and Feature Packs can also be freely taken into use. New SYS 600 versions willbe available for the SYS 600C hardware for at least 4 years after the hardware delivery.
After that new SYS 600 software versions may require an upgrade of the hardware.
The SYS 600 software license is bound to the Hardware Key that is installed inside the
computer.
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Product identification
The SYS 600C product is identified by the computer version and the SYS 600 software
version.
Example: SYS 600C 1.93 Hardware version 1, SYS 600 software version: 9.3
S o ft w ar e o p ti o ns5.2.
Communication protocols5.2.1.
The following tables list the communication protocols of SYS 600C.
Ta b le 5 . 2. 1 -1 M as t er p r ot oc o ls
M a s t e r p r o t oc o l
I E C 6 1 85 0 - 8 -1 C l i e n t
LON/LAG
S PA B u s
IEC 60870-5-101
IEC 60870-5-103
I E C 60 8 7 0 -5 - 1 0 4, S i n g l e o r r e du n d a nt
D NP 3 .0 L AN /WA N
D NP 3 .0 S er ia l
Modbus RTU
Modbus TCP/IP
R P 5 7 0/ 5 71
ANSI X3.28 FD/HD
P214
ADLP 180
I E C 6 1 10 7 ( m e t er i n g )
Alpha Meter protocol
RCOM
Ta b le 5 . 2. 1 -2 S l av e p r ot o co l s
S l a v e p r o t oc o l
I E C 60 8 7 0 -5 - 1 0 1, S i n g l e o r r e du n d a nt
I E C 60 8 7 0 -5 - 1 0 4, S i n g l e o r r e du n d a nt
D NP 3 .0 L AN /WA N
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S l a v e p r o to c o l
D NP 3 .0 S er ia l
R P 5 70 S in gl e o r r e d un da nt /R P 5 71F 4 F W es t i n gh o u s e, N o g a t e wa y s u p po r t
Modbus RTU (CPI)
H S I f e at u re s5.2.2.
The following table lists the SYS 600C HSI features.
Ta b le 5 . 2. 2 -1 U s er i n te r fa ce o p ti o ns
ValueDescr iptionU s er i n te r fa c e o p ti o n
0...5T h i s i s t h e n u m be r of w o r k-p l ac es t h at a r e i n u s e s i mu l ta n -
e o us l y. T h e n u mb e r o f w o rk -
p l a c es n e e d ed i s d e f i ne d i n t h e
f o ll o wi n g w a y: - A w o rk p la c e
m e a n s a c o m pu t e r ( P C,L a pt o p, P DA , T h in C li e nt ) ,
w hi ch c an h av e o ne o r se ve ra l
physical screens from where
ON E p ers on a t a t ime ca n
o p e r a te . - S e v e r a l A p p l i c at i o n
W in do ws c a n b e u se d i n o neworkplace.
N r of P r o w o rk p la c es
Yes/NoS el ec t t hi s op ti on , i f y ou w an tt o u se P ro ce ss D is pl ay s i n t heworkplaces. Process Displays
means displays with zooming,
p a n n in g , a n d d e c lu t t e ri n g f u n c-
t i o n s t y p i ca l l y u s e d t o p r e s en t
t h e p r im ar y p r o ce s s, f o r e x a mp l e , s i n g le - l i n e d i a g ra m .
Process displays
Yes/NoS el ec t t hi s op ti on , i f y ou w an t
t o u s e d y na m ic ne t wo r k c o lo r -i n g i n t h e P r oc e ss D i sp l ay s .
Network coloring
Yes/NoS el ec t t hi s op ti on , i f y ou w an t
t o u se t he Tr en d d is pl ay s i n t heWorkplaces.
Trends
Yes/NoS el ec t t hi s op ti on , i f y ou w an t
t o u se t he E ve nt L is t d is pl ay si n t h e W or k pl a ce s .
E v en t l i st
Yes/NoS el ec t t hi s op ti on , i f y ou w an t
t o u se t he A la rm Li st d is pl ay si n t h e W or k pl a ce s .
Alarm list
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ValueDescr iptionU s er i n te r fa c e o p ti o n
Yes/NoS el ec t t hi s o pt io n, i f y ou w an tt o u se t he B lo ck in g L is t d is -
p l ay s i n t h e W or k pl a ce s .
B l o c ki n g l i s t
Yes/NoS el ec t t hi s o pt io n, i f y ou w an tt o u s e t h e M e as u re m en t R e po r t
d i s p la y s i n t h e W o r kp l a c es .
T h is o p ti o n r e qu i re s t h e H i st o ry
D a ta L o gg i ng o p ti o n.
M e a su r e me n t r e p o rt s
Yes/NoS el ec t t hi s o pt io n, i f y ou w an t
t o i n te g ra t e P CM 6 00 To o ls i n
t h e P r o c es s D i s p l a ys .
P C M 6 0 0 i n t e r fa c e
Yes/NoS el ec t t hi s o pt io n, i f y ou w an t
t o i n te gr at e L IB 5 10 /5 42 I ED
To o l s i n t h e W o r kp l a c e.
I f y ou u se o nl y th e I ED t oo ls i n
t h e W or k pl a ce , n o o t he r L I B
l i ce n se i n n e ed e d.
L I B 5 1 0/ 5 42 I E D To o ls
Yes/NoS el ec t t hi s o pt io n, i f y ou w an t
t o i n te gr at e L IB 5 20 I ED To ol s
i n t h e W or k pl a ce .
I f y ou u se o nl y th e I ED t oo ls i n
t h e W or k pl a ce , n o o t he r L I Bl i ce n se i n n e ed e d.
L I B 5 2 0 I E D To o ls
Yes/NoS el ec t t hi s o pt io n, i f y ou w an t
t o i n te gr at e L IB 5 30 I ED To ol si n t h e W or k pl a ce .
I f y ou u se o nl y th e I ED t oo ls i n
t h e W or k pl a ce , n o o t he r L I B
l i ce n se i n n e ed e d.
L I B 5 3 0 I E D To o ls
S y st e m f u nc t io n s5.2.3.
The following tables list the SYS 600C system functions.
Ta b le 5 . 2. 3 -1 S y st em s i ze p a ra m et er s
ValueDescr iptionS y s te m s i ze p a ra m et e rs
1 .. 20 0 00
G a t e wa y f u n c ti o n a l it y ( C O M
5 0 0 i ) s u p p or t s m a x im u m 1 4
0 00 i nd ic at io ns a n d 1 4 0 00c o m ma n d s c o n fi g u r e d w i t h in
S Y S 6 0 0C .
N u m be r o f p r o ce s s o b j e ct s
c on ne ct ed t o t he p ro ce ss
Process I/O
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Ta b le 5 . 2. 3 -2 S ys t em o pt i on s a nd i n te r fa ce s
ValueDescr iptionS y s t e m o p t i on a n d i n t e r f a ce
Yes/NoT h i s o p t i on e n a b le s c o n t r olc o mm a nd s t o b e i s su e d f r om
t h e s ys t em .
T h is o p t io n s h ou l d n o rm al l y b e
s el ec te d. T hi s o pt i on c an b e l ef t
o u t i n p u r e m o ni t o ri n g s y st e ms ,
w he re n o o ut pu t p ro ce sso b j e ct s a r e n e e d ed .
Yo u a ls o n ee d t hi s o pt io n i n
g a t ew a y s ys t em s , i f c o mm a nd s
a r e p r op a ga t ed t h ro u gh t h e
gateway.
Control
Yes/NoT h is o p ti o n a l lo w s 1 0 0 0 0 0 0 0e n tr i es o f h i st o ry d a ta t o b e
a r ch i ve d ( D at a o b je c ts ) . T h is
o p t i o n i s n e e d e d f o r e x a mp l e ,
f o r t h e M e a su r e me n t R e p o rt s .T hi s o pt io n i s n ot n ee de d f or
t h e s t an d ar d T re n ds .
W i th o ut t h is o p ti o n, t h e n u mb e r
o f D at a O bj e ct e n tr i es i s l i mi t ed
t o 1 00 0 00.
H i s to r y D a t a L o g g i ng
Yes/NoS el ec t t hi s op ti on , i f y ou h av e
a r e du n da n t p a ir o f s e rv e rs
u s i n g t h e H o t - St a n d - By f u n c -tion.
Hot-Stand-By redundancy
(HSB)
Yes/NoT h is o p ti o n s ho u ld b e s el e ct e d,
i f t he d at ab as e m ir ro ri ng f un c-
t i on s ar e u s ed a n d t h is s ys t em
a ct s a s a H os t. T he H os t i s t hes y s te m t h a t p r o vi d e s p r o c es s
d a ta t o a n ot h er s y st e m.
F o r e x am p le , i f y o u u s e m i rr o r-
i n g b e tw e en a c o mm u ni c at i on
s e rv e r ( f r on t - en d ) a n d a s y st e m
s e r ve r, t h e c o m mu n i c at i o n
s e r ve r i s t h e h o s t .
D a ta b as e m i rr o ri n g H O ST
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ValueDescr iptionS y s t e m o p t i on a n d i n t e r f a c e
Yes/NoT h is o p ti o n s h ou l d b e s e le ct e d,i f t he d at ab as e m ir ro ri ng f un c-
t io ns a r e u se d a nd t hi s s ys te ma c ts a s a n I m ag e . T h e I ma g e
i s t h e s y s te m t h a t r e c ei v e s
p r o ce s s d a t a f r o m a n o th e r
system.
F o r e x am p le , i f y o u u s e m i rr o r-i n g b e tw e en a c o mm u ni c at i on
s er ve r a nd a s ys te m s er ve r, t h e
s y st e m s e r ve r is t h e I m a ge .
D a t a ba s e m i r ro r i n g I M A GE
Yes/NoT h is o p ti o n e n ab l es t h e O P C
D A s e rv e r fu n ct i on . T h e o p ti o n
s ho ul d b e s el ec te d, i f t he s ys -
t em i s t o b e c on ne ct ed t o a ne x t e rn a l O P C D A C l i e n t ( f o r e xa mp le , 8 00 xA , H IS 6 00 )
O P C D A S e r v er
0...3T h is o p t io n i s p r im a ri l y i n t en d ed
f or HS B s ys te ms , t o w hi ch a ne x t e rn a l OP C DA c l i e nt i s co n -
n e ct e d ( f or e x am p le , H I S 6 0 0) .
This Application OPC server is
i ns ta ll ed i n t he O PC DA C li en t
c o mp u t er a n d p r ov i de s a n O P C
D A s e rv e r i n te r fa c e t h at a u to -
m at i ca l ly co n ne c ts t o t h e H o ta p pl i ca t io n o f t h e H S B s ys t em .
N ot e: T he re i s N O A &E s er ve r
i nt er fa ce i n t hi s o pt io n.
Application OPC Server
Yes/NoT h is o p ti o n e n ab l es t h e O P CA&E server function (Alarms &
E ve nt s) . T he o pt io n s ho ul d b e
s el ec te d, i f t he s ys te m is t o b e
c o nn e ct e d t o a n e x te r na l O PC
A&E Client (e.g. 800xA)
O P C A & E S e r ve r
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ValueDescr iptionS y s t e m o p t i on a n d i n t e r f a ce
0...4T hi s is a D A C li en t t ha t i sl o os el y c o up l ed t o t h e S YS 6 0 0
b a s e s y st e m a n d c a n t h e r ef o r eb e i ns ta ll ed a ls o i n a s ep ar at e
computer.
I t i s u se d t o c on ne ct O PC D A
s er ve rs t o S YS 6 00 . Yo u n ee d
o n e c l ie n t f o r e a ch s e rv e r t h ati s t o b e c o nn e ct e d.
N o te : T h is D A c l ie n t i s u s ed
w it h t he I EC 61 85 0 O PC
se rve r, b ut y ou d o n ot ha ve t o
s el ec t t hi s o pt io n d ue t o t he
I E C 6 1 8 5 0 c o m mu n i c at i o n .
O PC D A C l ie n t / E xt e rn a l
0...4T he O PC D A c li en t i s u se d t o
c on n ec t f o re i gn d e vi c es t o S YS
6 0 0 w it h t h e O PC D A i n te r fa ce .
Yo u n ee d o ne c li en t f or ea chs e rv e r t h at i s to b e c o nn e ct e d.
T h e D A c l ie n t i s t i gh t ly in t eg -
r at ed w it h t he p ro ce ss d at a-
b as e a nd r un a lw ay s o n t he
S Y S 6 0 0 c o mp u te r.
O PC D A C l ie n t
0...4T he O PC A &E c li en t i s u se d t o
c on n ec t f o re i gn d e vi c es t o S YS
6 0 0 b y me a ns o f t h e O P C A & Einterface.
Yo u n ee d o ne c li en t f or ea ch
s e rv e r t h at i s to b e c o nn e ct e d.
O P C A & E C l i e nt
Yes/NoT he S QL E xp or t o pt io n
p r o v id e s a t o o l a n d f u n c ti o n s
f o r b r o ws i n g t h e p r o ce s s d a t a -b a se a n d e x po r ti n g p r oc e ss
d a ta t o a r e la t io n al d a ta b as e .
T he e xp or t c an b e d on e e it he r
e v e n t b a s e d o r c y cl i c a l ly.
S QL E x po r t
C o mp u te r o p ti o ns5.3.
The SYS 600C computer options are presented in the following tables.
Ta b le 5 . 3- 1 H a rd wa r e
Har dwar e
P o we r S u pp l y: 8 8 - 13 2 VA C / 4 5 - 16 0 V DC (S i ng l e o r r e du n da n t)
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Har dwar e
P o we r S u pp l y: 1 7 6 - 26 4 VA C / 2 0 0 - 37 0 V D C ( S in g le o r r e du n da n t)
E t he r ne t p o rt s 6 x R J4 5E th er ne t p or ts 2 x RJ 45 + 4 x LC
T ab l e 5 . 3 -2 O p er a t in g s y st e m s
Oper ating system
W i n d o ws X P P r o f es s i o na l , E n g l i sh v e r si o n
W i n d o ws X P P r o f es s i o na l , C h i n es e v e r si o n
W i n d o ws S e r ve r 2 0 0 3, E n g l is h v e r si o n
W i n d o ws S e r ve r 2 0 0 3, C h i n es e v e r si o n
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H a rd w a re c h a ra c t er i st i c s6.
Hardware6.1.
The following tables lists the SYS 600C hardware characteristics.
T ab l e 6 . 1 -1 H a r dw a r e s p e ci f i ca t i on s a n d d i m en s i on s
I nt el C or e 2 D uo 2 .2 GH z ( T7 40 0)CPU
I n te l 8 2 94 5 GM a n d I C H7 RChipset
2 GB D DR 2Memory
I n te l 8 2 94 5 c h ip s et i n te g ra t ed g r ap h ic c o nt r ol l er VGA
Award BIOSBIOS
1 x 1 6 GB W D S il i co n Dr i ve I I C F S SD - C1 6 GI - 43 0 0S t o r ag e d e v i ce
3 x PC I v 2. 3 s lo tsE x p an s i o n s l o t
1 6 x RS 23 2 a t r ea r pa ne lSerial ports
6 x Gi g ab i t E t he r ne t ( R J4 5 o r L C ) a t r e ar pa n el
1 x G i ga bi t E th er ne t a t f ro nt p an el ( R J4 5)
1000M/100M/10Mb/s (RJ45)
1000Mb/s (LC)
LAN ports
2 x US B a t r ea r p an el ( US B 2 .0 )
1 x U SB a t f ro nt p an el ( US B 2 .0 )
1 x U SB i nt er na l ( US B 2 .0 )
USB
AC97 2.1Audio
PS/2Keyboard/Mouse
S YS 6 0 0C u s es t h e o p ti c al i n du s tr i al g r ad e S FP c on n ec to r m od u le F T M-
8 0 1 2 C- S L i G f r o m S o u r ce P h o t on i c s ( F i b e rx o n ) .
M o du l e d e ta i ls : D a ta r a te 1 2 50 M b/ s , w a ve l en g th 8 5 0n m, m u lt i mo d e,
t e mp e ra t ur e r a ng e - 4 0 C ~ + 8 5 C ( -4 0 F ~ 1 8 5 F )
L C m o d u le d a t a
8 8 - 13 2 VA C / 4 5 - 16 0 V DC
1 76 - 26 4 VA C / 2 00 - 37 0 V DC
R e d u nd a n t p o w e r s u p p ly i s o p t i o na l
Power supply
60W max.Power consumption
60W max.H e a t p r o d uc t i o n
438W x 130H x 312D mm (excluding rack mount accessories)
3 U h e i g h t, 1 9 " r a c k m o u nt a b l e
Dimension
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C a pa c i ty a n d p e rf o r ma n ce7.
S Y S 6 0 0C c ap a ci t y7.1.
This chapter gives an overview of the capacity of SYS 600C regarding the following
functions or aspects:
Number of IEDs that can be connected
Usage of the following functions: workplaces and process displays, gateway, mir-
roring, HSB
Data logging (for example, for measurement reports and trends) and event logging
Conditions:
The capacity information is only applicable, when no additional software is installed
and/or running in the computer.
The average CPU load of the computer must not exceed 50%.
The system size capacity figures follow these principles:
A guideline for the maximum process communication (Number of IEDs or Number
of Messages/sec.) is given. This includes the process communication functions and
the logging of data in the process database.
If other functions are added, such as gateway or workplaces, they consume computer
capacity and thereby the process communication capacity must be reduced accord-
ingly. For IEC 61850 the capacity is mainly affecting the number of messages, and
thus it is more important that this is reduced than the number of IEDs.
The impact on the process communication capacity of the other functions is given
in percentage.
Example: How many IEDs can be connected over IEC 61850 to SYS 600C that acts as
a gateway with one NCC connection and one operator workplace?
Maximum of 160 IEDs can be connected over IEC 61850 (with 12 msg/s/IED), see
Table7.3-1.
The following functions are also needed:
One NCC connection (-25%)
1 workplace (-5%)
The process communication capacity in this case is:
75% * (95% * 160 IEDs) = 114 IEDs or
75% * (95% * 1920 ) msg/s = 1368 msg/s
D a ta l o g g in g c a p a c ity7.2.
The data logging capacity concerns logging to disk and is limited by the available disk
capacity. Roughly 1 GB of disk capacity is allocated for event logging and the same
amount for data logging.
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This corresponds to:
Number of events: 3 000 000
Number of logged values: 90 000 000
The maximum number of logged values corresponds roughly to 400 measurements
sampled every 15 minutes and stored for 1 + 5 years (current year + 5 years of history).
P ro c es s c o m mu n i c ati o n c a pa c i ty7.3.
The capacity of one protocol means that only that protocol is used. If several protocols
are combined, the maximum capacity per protocol must be reduced proportionally.
Example: IEC 61850 and LON are combined in the system. The IEC 61850 IEDs represent
60% of the maximum IEC 61850 capacity. Then the actual maximum LON capacity is
40% of the indicated maximum capacity.
The following tables show the maximum communication capacity for the most commonly
used protocols.
T ab l e 7 . 3 -1 M a x im u m c o m mu n i ca t i on c a pa c i ty
CommentsValueIEC 61850
1920/sN r o f m e s sa g e s
160N r o f I E Ds
4N r of I E C 6 1 85 0 c l ie n ts
LON
M a x im u m 3 0 I E D s p e r XL O N c a r d90N r o f I E Ds
L i mi t ed b y a v ai l ab l e P C I s l ot s3N r o f X L O N c a r d s
IEC 103
200N r o f I E Ds
Limited mostly by maximum response
time
15N r o f I ED s / l in e
IEC 101
200N r o f I E Ds
Limited mostly by maximum responsetime15N r o f I ED s / l in e
IEC 104
I f I / O c o un t i s sm a ll , n u mb e r o f I E Ds ca n
b e b ig ge r
200N r o f I E Ds
15N r o f I ED s / l in e
SPA
200N r o f I E Ds
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L i mi t ed m os t ly b y m a xi m um r e sp o ns etime
15N r o f I ED s / l in e
M o db u s R T U
200N r o f I E Ds
L i mi t ed m os t ly b y m a xi m um r e sp o ns e
time
15N r o f I ED s / l in e
M o db u s T C P
200N r o f I E Ds
L i mi t ed m os t ly b y m a xi m um r e sp o ns e
time
15N r o f I ED s / l in e
D N P s e ri a l
200N r o f I E Ds
L i mi t ed m os t ly b y m a xi m um r e sp o ns etime
15N r o f I ED s / l in e
D NP L AN
I f I /O c ou nt i s s ma l l, n um be r o f I ED s c an
b e b ig ge r
200N r o f I E Ds
15N r o f I ED s / l in e
T ab l e 7 . 3 -2 I m p ac t o n p r o ce s s c o m mu n i ca t i on
CommentsI m p a ct o n p r o c e ss c o m -
munication
Function
Always included- 0%Local process database
- 2%Mirroring
- 2%H o t S t a n d- b y r e d u n d an c y
- 2 5 % w he n t ot al d a ta u pd at e r at e t o a ll
N C C s i s 5 0 % f r o m t h e p r o c es s d at a
u p da t e r a te
- 25 % - 0%G a t e wa y / N C C c o nn e c -
tions
- 2 4% w he n P ro ce ss d is pl ay w it h 1 0 50
m e as u re m en t o b je c ts i n W or k pl a ce
- 1 8% w he n P ro ce ss d is pl ay w it h 1 0 50
s wi t ch i ng d e vi c e o b je c ts i n W or k pl a ce
- 4 % w h en P r oc e ss d i sp l ay w i th 1 5 0m e as u re m en t o b je c ts i n W or k pl a ce
- 2 % w h en P r oc e ss d i sp l ay w i th 1 5 0
s wi t ch i ng d e vi c e o b je c ts i n W or k pl a ce
- 24 % - 1%Process display Work-
place
P e r W or k pl a ce w i th T re n ds w i th 1 0c u rv e s o n 3 0 s e co n ds i n t e rv a l l o gg i ng
- 1%T r en d s W o r k p l ac e w i t hd a ta l o gg i ng
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CommentsI m p a ct o n p r o c e s s c o m -
munication
Function
P e r Wo r k pl a c e w i t h M e a su r e me n t
R e po r ts w i th 1 5 m i n r e po r t
To t al o f 9 0 0 o b je c ts d a ta l o gg e d b y
M e a su r e m en t R e p o rt s
- 1%R e p o rt s W o r k p ac e w i t h
d a ta l o gg i ng
The following list shows some examples when IEDs are connected to SYS 600C with
the following Gateway or NCC connections and with Local process database:
NCC connection with one DNP LAN communication including 84 IEDs resulting
in 1 000 process updates per second sent to one NCC*)
NCC connection with two DNP LAN communications including 67 IEDs resulting
in 1 600 process updates per second sent to two NCCs*)
NCC connection with one IEC 104 LAN communication including 158 IEDs resultingin 1 900 process updates per second sent to one NCC
NCC connection with two IEC 104 LAN communications including 116 IEDs res-
ulting in 2 800 process updates per second sent to two NCCs
*)90% 16-bit analog data without time, 5% binary data without time and 5% binary data
with time
The following list shows some examples when IEDs are connected to SYS 600C with
Local process database and displayed with Workplaces:
60 IEDs with IEC 61850 protocol and 1 Workplace with 1 050 display objects
63 IEDs with IEC 61850 protocol and 2 Workplaces both including 450 displayobjects
77 IEDs with IEC 61850 protocol and 1 Workplace including 150 display objects
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C on ta ct u s
1MRS757258A/30.6
.2010
Copyright2010ABB.Allrightsreserved.
ABB Oy
Substation Automation Pr oducts
P. O. B ox 6 99
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