p301 Rtu560 Basic

RTU560 Basic

P301 RTU560 Basic Remote Terminal Unit

ABB NAME

RESP.DEPT.

PREPARED

RTU560 Basic COURSE ID

HRABB / PSAC LANGUAGE

06. Sep 2013. CHECKED

P301

En REVISION

APPROVED

A

Table of contents 1

RTU560 Introduction

2

RTU560 Cabinets and subracks

3

RTU560 Hardware Components

4

Integrated Web Server

5

RTUtil560 Concept

6

RTUtil560 Configuration

7

Excel Import/Export

8

Exercises

Notice

These documents have been assembled and produced for educational purposes. The contents of your course binder will not be updated to include future amendments. We appreciate your comments on our course documents. On the basis of practical experience and your feedback we can improve our courses in the future. The information in this document is subject to change without notice and should not be construed as a commitment by ABB. ABB assumes no responsibility for any errors that may appear in this document. This document and parts thereof must not be reproduced or copied without ABB’s written permission, and the contents thereof must not be imparted to a third party nor be used for any unauthorized purpose. Participation in a course is not only passive receiving of information but it requires activity on your part. Our courses contain several practical exercises. Make use of these opportunities to test and acquire familiarity with the equipment and aids used. As a user of our training equipment, you must read and follow carefully the safety instructions. In no event shall ABB be liable for direct, indirect, special, incidental or consequential damages of any nature arising from the use of this document, nor shall ABB be liable for incidental or consequential damages arising from the use of any software or hardware described in this document. With best wishes for a rewarding course. ABB Training Team

Course presentation The aim of the course is to present system architecture, hardware and software components of RTU560 and basic engineeering principles. Focus is on the telecontrol protocol options of Remote Terminal Unit RTU560. Objectives

Prerequisites

After this course the participant will be able to: - install RTUtil560, communicate with RTU560 by the Internet Explorer - download and upload files, make RTU diagnose - make basic configuration with RTUtil - import and export data from Excel

Basic knowledge of general telecontrol functions and of Microsoft Windows and Office.

Participant profile Engineering-, commissioning-, and maintenance-personnelcommunicate with each other using IEC 61850.

Topics -

RTU560 HW & SW Components Web Server RTUtil560 concept RTUtil560 configuration Excel import/export

ABB Croatia, PSAC

RTU560 Introduction Chapter 1

RTU500 series overview Requirements for modern RTUs Network Control System

Monitoring and control Station Control System

Data archives

Redundancy

Easy engineering

Integrated HMI

Diagnosis PLC functions

Cyber security Parallel I/Os

Sub devices

Set of protocols

© ABB Group September 24, 2013 | Slide 2

1

RTU500 series overview Introduction RTU500 series modules RTU500 series functions and software

RTU560 product line

RTU540 product line

RTU511 product line

Feeder automation

5.000 data points

5.000 data points

750 data points

Secondary distribution substations

Primary distribution substations

Transmission / sub transmission

© ABB Group September 24, 2013 | Slide 3

RTU500 series overview RTU500 history

RTU560 product line

RTU540 product line

RTU511 product line

2000

2009

2013

© ABB Group September 24, 2013 | Slide 4

2

RTU500 series overview Suitable for all applications Feeder automation

Secondary distribution substation

Capacitor banks

Demand response

Classic RTU

Ring main units

Fault detection isolation restoration

Substation automation

Pole-top RTU

Voltage optimization

Gateway

Primary distribution substation

Transmission/ sub transmission

Decentralized energy resources

RTU511

RTU511

RTU540

RTU540

RTU560

© ABB Group September 24, 2013 | Slide 5

RTU500 series overview RTU560 product line Maximum possibilities for extendibility and enhancement Modular platform with high flexibility Different possibilities for redundancy Multi-processor architecture

© ABB Group September 24, 2013 | Slide 6

3

RTU500 series overview RTU540 product line Extendable with central and distributed I/Os Compact housing available with: Integrated GPRS Integrated I/Os Communication redundancy

© ABB Group September 24, 2013 | Slide 7

RTU500 series overview New RTU511 product line DIN rail RTU in tailored housing offering high functionality for optimized price Application areas: Feeder automation Secondary distribution substations

Your benefits RTU511

Compact and cost-efficient RTU State-of-the-art processor with ARMbased technology Flexible integration of I/Os thanks to scalable housing Suitable for limited space requirements Migration of existing RTU211 installations

Extension IO © ABB Group September 24, 2013 | Slide 8

4

RTU500 series overview New RTU511 product line Migration strategy RTU211 to RTU511 Installed Base: 20.000 units Benefits:

Migration kit

Reuse of Multi-I/O module and Power supply Reuse of wiring Reuse of configuration data New RTU500 functionality

© ABB Group September 24, 2013 | Slide 9

RTU500 series overview RTU500 series functions and software Engineering tools designed for different user groups Webserver for configuration and diagnosis Powerful PLC (support of IEC 61131-3) Integrated webserver-based HMI Up-to-date cyber security features

© ABB Group September 24, 2013 | Slide 10

5

RTU500 series overview RTU500 series functions and software Standard protocols (IEC, DNP, Modbus) More than 30 additional protocols IEC 61850 Flexible time management concept Redundancy suitable for all types of redundant requirements

© ABB Group September 24, 2013 | Slide 11

RTU500 series overview Web Server interface 



Diagnosis and Maintenance 

System messages



Process values and qualifiers



Configuration up- and download



Firmware update

Archive 

Process archive



Disturbance file archive



Local print

© ABB Group September 24, 2013 | Slide 12

6

RTU500 series overview Web Server interface 



Integrated HMI 

Station visualisation and station control



Alarm and Event List



System Overview



Picture editor with symbol library

Trends 

Analog trends



Graphic display

© ABB Group September 24, 2013 | Slide 13

7

ABB Croatia, PSAC, Training material

RTU560 Cabinets and Subracks Chapter 2

RTU560 Cabinets and subracks





Cabinets 

Swing Frame



Rear Mounted



Wall Mounted

Subracks 

560MPR03



560SFR02



560MPR01

© ABB Group September 24, 2013 | Slide 2

1

RTU560 Cabinets and subracks 

Cabinet – Swing Frame

© ABB Group September 24, 2013 | Slide 3

RTU560 Cabinets and subracks 

Cabinet – Rear Mounted

© ABB Group September 24, 2013 | Slide 4

2

RTU560 Cabinets and subracks 

Cabinet – Wall mounted

© ABB Group September 24, 2013 | Slide 5

RTU560 Cabinets and subracks Subrack 560MPR03 

With flexible configuration for I/O, CMU and power supply



Designed to be used with or without redundant power supply. Therefore, it has 2 slots for redundant supply.



Up to 18 slots can be used for I/O boards, communication units (CMU) or a mixture of both.



It is interfaced to other racks via the RTU560 serial peripheral bus.



Up to 7 560MPR03 racks can be connected to an I/O bus segment.



By using the bus connection unit 560BCU04, the 560MPR03 becomes a rack with up to 8 communication units 560CMU05/560CMU02).

© ABB Group September 24, 2013 | Slide 6

3

RTU560 Cabinets and subracks Subrack 560SFR02 

The 560SFR02 rack is designed to be used with or without redundant power supply.



Up to 18 slots can be used for I/O boards, communication units (CMU) or a mixture of both.



It is interfaced to other racks via the RTU560 serial peripheral bus.



Up to 7 560SFR02 racks can be connected to an I/O bus segment. By using the bus connection unit 560BCU05, the 560SFR02 becomes a rack with up to 8 communication units (560CMU05/ 560CMU02).



Installed in a swing frame cabinet or in a frame.

© ABB Group September 24, 2013 | Slide 7

RTU560 Cabinets and subracks Subrack 560MPR01 

The mounting plate rack 560MPR01 accommodates up to 2 communication units (CMU) 560CMU02 or 560CMU05 and up to 8 peripheral modules in a RTU560 substation.



One additional (extension) mounting plate rack can be connected to the 560MPR01 via the RTU560 serial peripheral bus (SPS)..

© ABB Group September 24, 2013 | Slide 8

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5

ABB Croatia, PSAC, Training material

RTU500 Hardware Components Chapter 3

RTU500 Hardware Components Communication Units 



560CMU02 

Central module of the RTU560 with 32 bit CPU



2x serial communication interfaces (RS-232 or RS485) for local/remote communication



2x Ethernet interface (10/100BaseT)



1x serial peripheral bus

560CMU05 

Central module of the RTU560 with 32 bit CPU



4x serial communication interfaces (RS-232 or RS485) for local/remote communication



2x Ethernet interface (10/100BaseT)

© ABB Group September 24, 2013 | Slide 2

1

RTU500 Hardware Components Interface to Web HMI 



560HMR01 

Interface board to RTU560 integrated web HMI



Windows 7 Professional (32 bit)



2x Ethernet interface (10/100BaseT)



4x USB ports for keyboard and mouse



1x VGA port for monitor



1x Stereo audio-out

The essential tasks of the 560HMR01 are: 

Interface to RTUs that are running web-server and RTU560 integrated HMI. It communicates via Ethernet LAN interfaces and provides interfaces to connect a local monitor, mouse and keyboard



Runs Windows based operating system for RTU560 integrated HMI



The 560HMR01 takes two slots of the module rack

© ABB Group September 24, 2013 | Slide 3

RTU500 Hardware Components Power Supply 



560PSR00 

Input voltage 24...60 V DC



Output voltage: 5 and 24 V DC



Suitable for redundant power supply in 560MPR03/560SFR02

560PSU01 

Input voltage 110...220 V DC



Output voltage: 5 and 24 V DC



Suitable for redundant power supply in 560MPR03/560SFR02

© ABB Group September 24, 2013 | Slide 4

2

RTU500 Hardware Components Power Supply 

560PSU02 

Input voltage: 48...220 V DC



Output voltage: 5 and 24 V DC



Suitable for redundant power supply in 560MPR03/560SFR02

© ABB Group September 24, 2013 | Slide 5

RTU500 Hardware Components Input/output Modules 



23BE23 – Binary input module 

To be used for single indications, double indications, digital measurands and pulse counters.



Resolution: 1 ms



Process voltage: 24...60 V DC



LED signal for each input

23BA20 – Binary output module 

16 output contacts configured as 

1-pole command



2-pole command



1.5-pole command in configuration with 23BA23



Operating voltage 24...60 V DC, 60 W



Imax.: 2 A with 24 V DC (ohmic load)

© ABB Group September 24, 2013 | Slide 6

3

RTU500 Hardware Components Input/output Modules 



23BA23 – Command output monitoring module 

The 23BA23 board is intended for use in the RTU560 productline.



The 23BA23 board should be installed if the output circuit of an object command has to be checked before the actual command is given.



The 23BA23 board executes a (1 out of n) check.



Auxiliary test voltage 24...60 V DC

23AE23 – Analog input module 

The 23AE23 board records up to 8 analog measured values. The 23AE23 board allows it to connect all typical measured value ranges



± 2 mA, ± 5 mA, ± 10 mA, ± 20 mA, ± 40 mA



± 2 V DC, 0 ... + 20 V DC



Resolution 12 bit + sign

© ABB Group September 24, 2013 | Slide 7

RTU500 Hardware Components Input/output Modules 

23AA21 – Analog output module 

Analog signal represented digitally by 11 bit + sign



Selectable current outputs: 



+/-2.5 mA; +/-5 mA; +/-10 mA; +/-20 mA; +4...20 mA

23BE50 – Binary input module 

To be used for single indications, double indications, digital measurands and pulse counters.



Resolution: 1 ms



Process voltage: 24...60 V DC



LED signal for each input



Isolated input of 64 process signals

© ABB Group September 24, 2013 | Slide 8

4

RTU500 Hardware Components Input/output Modules 



23BA40 – Command output module 

16 output contacts configured as 16 single contact outputs or 8 double contact outputs



Switching voltage: 24...220 V DC / 250 V AC



Max. switching capacity: 120 W (DC)



Max. switching current: 300 mA at 110 V DC, 200 mA at 220 V DC (L/R = 40 ms)



Isolated relay output contacts NO, 2-pole connection

23BE40 – Binary input module 

16 channel potential isolated inputs, without common return



Process voltage: 110...125 V DC and 220...250 V DC

© ABB Group September 24, 2013 | Slide 9

RTU500 Hardware Components Ethernet communication and Real-time clock 



560NUS12 – ethernet switch 

Unmanaged switch



2x SFP slot, without optical transmitter/receiver



2x 10/100 BaseT port (electrical)



Linear network structure supported

560RTC01 – Time clock GPS 

Real time clock for synchronization of the RTU560 with the standard time of the GPS satellite including configuration tool.



The use of the module 560RTC01 ensures that process information from several terminal units are synchronized

© ABB Group September 24, 2013 | Slide 10

5

RTU500 Hardware Components RTU540 product line 

Smart solutions for distribution automation



DIN rail mounted base modules



Internal GPRS modem (optional)



1 or 2 ethernet ports (optional)



Integrated BI, BO, AI (optional)

© ABB Group September 24, 2013 | Slide 11

RTU500 Hardware Components RTU511 product line 

RTU511 Communication units:



RTU511 Power supply units:



RTU511 Input/output modules:

© ABB Group September 24, 2013 | Slide 12

6

RTU500 Hardware Components RTU500 series modules 



RTU500 Power supply units:

RTU500 Input/output modules:

RTU500 Ethernet communication:



© ABB Group September 24, 2013 | Slide 13

RTU500 Hardware Components Licenses 





Basic License 

Gateway functionality



All protocols included



50 / 250 / 750 / 5000 Data points

PLC + Archive License 

Basic license included



PLC functionality



Archive functionality

HMI License 

PLC + Archive license included



HMI interface

© ABB Group September 24, 2013 | Slide 14

7

RTU500 Hardware Components License release 10 

Basic 

50 DP/ 250 DP/ 750 DP/ 5000 DP



Incl. IEC 61850 Server and Client



All protocols



Compact flashcard 128 MB

PLC/Archive





50 DP/ 250 DP/ 750 DP/ 5000 DP



Incl. Basic licence



Compact flashcard 128 MB

HMI License





50 DP/ 250 DP/ 750 DP/ 5000 DP



Incl. Basic and PLC/Archives licences



Compact flashcard 128 MB

© ABB Group September 24, 2013 | Slide 15

RTU500 Hardware Components License release 11 



Basic 

50 DP/ 250 DP/ 750 DP



All protocols



SD card

PLC/Archive 

50 DP/ 250 DP/ 750 DP



Incl. Basic licence



SD card

© ABB Group September 24, 2013 | Slide 16

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9

ABB Croatia, PSAC, Training material

RTU500 Integrated Web Server Chapter 4

RTU500 Integrated Web Server General 

The integrated Webserver is a powerful tool for commissioning and error analysis. By using the Microsoft, Internet Explorer or another Web-browser it is possible to show all information about the state of the RTU560 and the state of the connected primary process.



In addition the Webserver is used for downloading configuration data and new firmware versions.



The connection to the Webserver will be initialized by the IP address to connected RTU560.



Default IP address: 192.168.0.1

© ABB Group September 24, 2013 | Slide 2

1

RTU500 Integrated Web Server General

Menu

Information

© ABB Group September 24, 2013 | Slide 3

RTU500 Integrated Web Server General

The access to the Webserver is protected by user name and password.

List of pre-defined username and passwords: User name Show Load Control Admin

Password Show Load Control Admin

Access rights User is allowed to show information User is allowed to load configuration/firmware User is allowed to perform commands User is allowed to create/modify other user

© ABB Group September 24, 2013 | Slide 4

2

RTU500 Integrated Web Server System Diagnosis



The System Diagnosis is a powerful tool for commissioning and error diagnosis.



The General View shows only the most important information of the state...

© ABB Group September 24, 2013 | Slide 5

RTU500 Integrated Web Server System Diagnosis



... While the Detailed view contains more detailed information of the system

© ABB Group September 24, 2013 | Slide 6

3

RTU500 Integrated Web Server System Diagnosis



The Network Tree shows the actual Network configuration of the RTU500.



This window is static and will not be updated.

© ABB Group September 24, 2013 | Slide 7

RTU500 Integrated Web Server System Diagnosis 

The Hardware Tree contains important information about the state of the hardware of the RTU500 and the actual state of the primary process.



A field with a blue-colored text contains a link to additional information at the righthand side of the screen, while a means that additional information is available, which must be extended

© ABB Group September 24, 2013 | Slide 8

4

RTU500 Integrated Web Server System Diagnosis 

While extending a subrack 23ET23S in this example and extending a CMU, the whole structure of the hardware is shown.



Additional information are available by using the blue-colored link.

© ABB Group September 24, 2013 | Slide 9

RTU500 Integrated Web Server System Events 

Representation of the System Events in the Hardware Tree

© ABB Group September 24, 2013 | Slide 10

5

RTU500 Integrated Web Server Time Administration

© ABB Group September 24, 2013 | Slide 11

RTU500 Integrated Web Server Time Administration

© ABB Group September 24, 2013 | Slide 12

6

RTU500 Integrated Web Server Board Information

© ABB Group September 24, 2013 | Slide 13

RTU500 Integrated Web Server Line Information

© ABB Group September 24, 2013 | Slide 14

7

RTU500 Integrated Web Server Process Information

© ABB Group September 24, 2013 | Slide 15

RTU500 Integrated Web Server Process Information

© ABB Group September 24, 2013 | Slide 16

8

RTU500 Integrated Web Server Process Commands

© ABB Group September 24, 2013 | Slide 17

RTU500 Integrated Web Server Process Commands

© ABB Group September 24, 2013 | Slide 18

9

RTU500 Integrated Web Server Setpoint Commands

© ABB Group September 24, 2013 | Slide 19

RTU500 Integrated Web Server Archives

© ABB Group September 24, 2013 | Slide 20

10

RTU500 Integrated Web Server Archives

© ABB Group September 24, 2013 | Slide 21

RTU500 Integrated Web Server Archives

© ABB Group September 24, 2013 | Slide 22

11

RTU500 Integrated Web Server Configuration File Manager

© ABB Group September 24, 2013 | Slide 23

RTU500 Integrated Web Server Configuration File Manager

© ABB Group September 24, 2013 | Slide 24

12

RTU500 Integrated Web Server Configuration File Manager

© ABB Group September 24, 2013 | Slide 25

RTU500 Integrated Web Server Firmware File Manager

© ABB Group September 24, 2013 | Slide 26

13

RTU500 Integrated Web Server Firmware File Manager

© ABB Group September 24, 2013 | Slide 27

RTU500 Integrated Web Server Administration

© ABB Group September 24, 2013 | Slide 28

14

RTU500 Integrated Web Server Administration

© ABB Group September 24, 2013 | Slide 29

RTU500 Integrated Web Server Integrated HMI

© ABB Group September 24, 2013 | Slide 30

15

RTU500 Integrated Web Server Remote Diagnostics

© ABB Group September 24, 2013 | Slide 31

RTU500 Integrated Web Server Remote Diagnostics

© ABB Group September 24, 2013 | Slide 32

16

RTU500 Integrated Web Server Additional Information

© ABB Group September 24, 2013 | Slide 33

17

ABB Croatia, PSAC, Training material

RTUtil560 Concept Chapter 5

RTUtil560 Concept Basic Operations

© ABB Group September 24, 2013 | Slide 2

1

RTUtil560 Concept Workspace

© ABB Group September 24, 2013 | Slide 3

RTUtil560 Concept Basic Operations, Network Tree

© ABB Group September 24, 2013 | Slide 4

2

RTUtil560 Concept Basic Operations, Signal Tree

© ABB Group September 24, 2013 | Slide 5

RTUtil560 Concept Basic Operations, Hardware Tree

© ABB Group September 24, 2013 | Slide 6

3

RTUtil560 Concept Basic Operations, Tree Structure

© ABB Group September 24, 2013 | Slide 7

RTUtil560 Concept Basic Operations

© ABB Group September 24, 2013 | Slide 8

4

RTUtil560 Concept Basic Operations

© ABB Group September 24, 2013 | Slide 9

RTUtil560 Concept Basic Operations, Icons

© ABB Group September 24, 2013 | Slide 10

5

RTUtil560 Concept Basic Operations, Windows

© ABB Group September 24, 2013 | Slide 11

RTUtil560 Concept Basic Operations, Nodes

© ABB Group September 24, 2013 | Slide 12

6

RTUtil560 Concept Basic Operations, Tool Tips

© ABB Group September 24, 2013 | Slide 13

RTUtil560 Concept Basic Operations

© ABB Group September 24, 2013 | Slide 14

7

RTUtil560 Concept Basic Operations, Naming

© ABB Group September 24, 2013 | Slide 15

RTUtil560 Concept Basic Operations

© ABB Group September 24, 2013 | Slide 16

8

RTUtil560 Concept Basic Operations

© ABB Group September 24, 2013 | Slide 17

RTUtil560 Concept Basic Operations

© ABB Group September 24, 2013 | Slide 18

9

RTUtil560 Concept Basic Operations, File Generation

© ABB Group September 24, 2013 | Slide 19

RTUtil560 Concept Basic Operations, Consistency Check

© ABB Group September 24, 2013 | Slide 20

10

RTUtil560 Concept Basic Operations, Additional Tools

© ABB Group September 24, 2013 | Slide 21

RTUtil560 Concept Basic Operations

© ABB Group September 24, 2013 | Slide 22

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ABB Croatia, PSAC, Training material

RTUtil560 Configuration Chapter 6

RTUtil560 Configuration Engineering steps The engineering of RTU560 data contains several dependency steps that demand a sequence in the data engineering process. The basic data engineering steps are: 1.

Project configuration

2.

Build up the tree structures      

3.

Build up station network topology in the Network Tree Definition of all RTUs, I/O modules within RTUs and IEDs in the Hardware Tree The link steps in the Hardware tree to build up relations between the trees Link RTUs and IEDs from the Network to the Hardware tree Definition of data points in Signal Tree Link all data points

Set parameters, addresses  

Set the addresses of the process data points Set single parameters for several tree objects

4.

Start the consistency check

5.

Build the RTU-files for each RTU

6.

Download generated files to all RTUs

© ABB Group September 24, 2013 | Slide 2

1

RTUtil560 Configuration Engineering steps, Project configuration 

Create new project and initialize project

© ABB Group September 24, 2013 | Slide 3

RTUtil560 Configuration Engineering steps, Project configuration 

Initialize Signal Tree:

Maximal length of a process data name is 32 characters.

It is important to leave empty field for last level (level for naming Data points)!!!

Number of characters for last level should be greater than 0.

In this case we have 17 characters left for naming Data points

© ABB Group September 24, 2013 | Slide 4

2

RTUtil560 Configuration Engineering steps, Network Tree 

Add Items in Network Tree: 

Add RTUs



Add communication Protocols

© ABB Group September 24, 2013 | Slide 5

RTUtil560 Configuration Engineering steps, Hardware Tree 

Link Items in Hardware Tree: 

Link RTUs

© ABB Group September 24, 2013 | Slide 6

3

RTUtil560 Configuration Engineering steps, Hardware Tree 

Add items in Hardware Tree: 

Add rack type



Add I/O modules within rack

© ABB Group September 24, 2013 | Slide 7

RTUtil560 Configuration Engineering steps, Hardware Tree 

Define I/O modules in each rack depending on delivered hardware configuration:

© ABB Group September 24, 2013 | Slide 8

4

RTUtil560 Configuration Engineering steps, Hardware Tree 

Add I/O bus: 

Link communication lines within 560CMU05 ethernet interface

© ABB Group September 24, 2013 | Slide 9

RTUtil560 Configuration Engineering steps, Signal Tree 

Create level structure in Signal Tree: 

Add stations



Add bays



Add data points

© ABB Group September 24, 2013 | Slide 10

5

RTUtil560 Configuration Engineering steps, Signal Tree 

Add all data points within Signal Tree



For each Data point, type of data should be defined:





SPI for single point



DPI for double point



AMI for measurands



...

For each Data Point define unique name

© ABB Group September 24, 2013 | Slide 11

RTUtil560 Configuration Engineering steps, Hardware Tree 

Link all Data Points to certain hardware module or IED

© ABB Group September 24, 2013 | Slide 12

6

RTUtil560 Configuration Engineering steps, Parameters and addresses 

Set parameters and addresses for each Data point:

© ABB Group September 24, 2013 | Slide 13

RTUtil560 Configuration Engineering steps, Parameters and addresses 

Define ethernet and serial interfaces within RTU CPU module (560CMU05)

© ABB Group September 24, 2013 | Slide 14

7

RTUtil560 Configuration Engineering steps, Parameters and addresses 

Define „Time administration mode” of one RTU as „MASTER”

© ABB Group September 24, 2013 | Slide 15

RTUtil560 Configuration Engineering steps, I/O Bus 

Define I/O bus to one of serial (RS-485) interface to connect 560CMU05 and I/O racks:

© ABB Group September 24, 2013 | Slide 16

8

RTUtil560 Configuration Engineering steps, Consistency check 

Check consistency of configuration



If there are no errors, project is ready for file generation



Warnings will not break file generation, only errors will

© ABB Group September 24, 2013 | Slide 17

RTUtil560 Configuration Engineering steps, File generation 

Compile the project and generate files: Project = > Build RTU Files...



Define path for generated files



Set „Save information into RTU file for extracting a whole project” to save project on RTU

© ABB Group September 24, 2013 | Slide 18

9

RTUtil560 Configuration Engineering steps, File generation



Generated files: 

RTU560.gcd



RTU560.iod



RTU560.oad



RTU560.ptx

Download files to RTU

© ABB Group September 24, 2013 | Slide 19

RTUtil560 Configuration Engineering steps, Download configuration 

To download files to RTU click on Configuration and log in with user (Load), password (Load).

© ABB Group September 24, 2013 | Slide 20

10

RTUtil560 Configuration Engineering steps, Download configuration 

Select generated files from (Local PC) folder and click arrow pointing towards RTU (towards left)

© ABB Group September 24, 2013 | Slide 21

RTUtil560 Configuration Engineering steps, Download configuration 

Wait for all files to copy to RTU



Restart RTU to accept new configuration

© ABB Group September 24, 2013 | Slide 22

11

12

ABB Croatia, PSAC

RTUtil560 Excel – Import/Export Chapter 7

RTUtil560 Excel – Import/Export Excel Export

© ABB Group September 24, 2013 | Slide 2

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RTUtil560 Excel – Import/Export Excel Export – Step (1)

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Go to Extra - > Excel Export

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RTUtil560 Excel – Import/Export Excel Export – Step (2)

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RTUtil560 Excel – Import/Export Excel Export – Step (3)

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RTUtil560 Excel – Import/Export Excel Export – Step (4)

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RTUtil560 Excel – Import/Export Excel Export – Step (5)

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RTUtil560 Excel - Import Relationship Excel RTUtil560

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RTUtil560 Excel - Import Application

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RTUtil560 Excel - Import Pre-conditions and Principles

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RTUtil560 Excel - Import Functionality

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RTUtil560 Excel - Import Table

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RTUtil560 Excel - Import _End

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RTUtil560 Excel - Import Worksheet Structure Local IO

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RTUtil560 Excel - Import Initiatiaon

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RTUtil560 Excel - Import Initiation, Step-by-Step (1)

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RTUtil560 Excel - Import Initiation, Step-by-Step (2)

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RTUtil560 Excel - Import Initiation, Step-by-Step (3)

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RTUtil560 Excel - Import Initiation, Step-by-Step (4)

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RTUtil560 Excel - Import Initiation, Step-by-Step (5)

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RTUtil560 Excel - Import Initiation, Step-by-Step (6)

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RTUtil560 Excel - Import Initiation, Step-by-Step (7)

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RTUtil560 Excel - Import Initiation, Step-by-Step (8)

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RTUtil560 Excel - Import Initiation, Step-by-Step (9)

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RTUtil560 Excel - Import Initiation, Step-by-Step (10)

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RTUtil560 Excel - Import Initiation, Step-by-Step (11)

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RTUtil560 Excel - Import Initiation, Step-by-Step (12)

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RTUtil560 Excel - Import Initiation, Step-by-Step (13)

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RTUtil560 Excel - Import Initiation, Step-by-Step (14)

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RTUtil560 Excel - Import Import, Step-by-Step (1)

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RTUtil560 Excel - Import Import, Step-by-Step (2)

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RTUtil560 Excel - Import Import, Step-by-Step (3)

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RTUtil560 Excel - Import Import, Step-by-Step (4)

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RTUtil560 Excel - Import Import, Step-by-Step (5)

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RTUtil560 Excel - Import Import, Step-by-Step (6)

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RTUtil560 Excel - Import Import, Step-by-Step (7)

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RTUtil560 Excel - Import Import, Generating the Excel Worksheet (1)

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RTUtil560 Excel - Import Import, Generating the Excel Worksheet (2)

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RTUtil560 Excel - Import Import, Generating the Excel Worksheet (3)

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