abb university switzerland course program 2013 part 2

ABB University SwitzerlandCourse Program 2013Part 2 – Power Systems Substation Automation and Protection

2 ABB University Switzerland | Course Program 2013

ABB University Switzerland

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Baden 1 LC Business Processes and Personal Development LC Communication Networks LC Substation Automation and Protection LC Power Generation LC Information Systems Applications2 LC Management and Leadership Development 3 LC Robotics

ABB Switzerland LtdLC Substation Automation and ProtectionBruggerstrasse 72CH-5400 BadenPhone +41 58 585 53 74Fax +41 58 585 28 00

Genf

Bern

Basel

Lugano

Baden-Dättwil

Baden

Zürich-Oerlikon

Power Systems – Substation Automation and Protection

Course Program 2013 | ABB University Switzerland 3

MethodsLectures, demonstrations, audio-visuals.

Duration5 days (until Friday noon)

CHS003Power System Analysis – Fundamentals

Course goalThe participants acquire the basic know-how about power sys-tem analysis and its relevance to the power grid design.

Learning objectives– Gain an overview of the properties of transmission, distribu-

tion and industrial power systems– Explain the power system dynamic and stable behavior

including the transitions between the different power system states

– Describe the components and general behavior of the power system from generation over transmission and distribution to consumption

– Introduce basic power flow concepts and system analysis based on some system examples

– Model and analyse the power system– Learn computation techniques for fault calculations

ParticipantsDesign, planning and application engineers as well as consul-tants responsible for electricity supply and industry. Technical personnel from ABB companies.

PrerequisitesEngineering degree, technical college qualifications or equiva-lent.Recommended course or relevant experience:– CHS100 Power System Technology

Topics– Fundamental properties of transmission, distribution and

industrial power systems– Overview of abnormal system conditions in the power sys-

tem and their characteristic time constants– Network equations for a power system– Description of the components of a power system from the

power plant to the consumer in terms of network equations– Load flow

Assessment of:balance of active power (losses, efficiency and angle between node voltage phasors)balance of reactive power (surplus or lack of reactive power)balance of voltage (length difference between node voltages phasors)overloaded elementsreactive power compensationchanging load distribution by in-line and phase shifting trans-formers

CHS100Power System Technology – Fundamentals

Course goalThe participants become familiar with the electrical power sys-tem and all its components and features. This familiarization is the basis for all engineering and operating activities in power systems. They are introduced to the fundamentals of today’s technologies in substations (switchgear), substation automation including protection, communication and power system man-agement.

Learning objectives– Get an overview of the power system structure and behavior– Explain the different configurations of substations and their

components– List the functions of the automation and protection system– Explain typical substation automation system structures– Understand most common protection schemes– Explain how the primary system (switchgear) is interfaced

with the substation automation system – Get an overview of the communication in power systems– Understand the basics of network management

ParticipantsConsultants and employees from the electricity supply industry. Personnel from ABB companies.Note: The course is designed for newcomers in the area of power system technology.

PrerequisitesCollege qualification or equivalent.

Topics– Power system description

Voltage levels, substations as power grid nodesTransmission vs. distribution power systemsPower system faults and disturbancesNetwork equations and state estimation, network stability, Generation, active and reactive power, P-f relationship, Q-V relationship, Power qualityPrinciples of power system managementIdea and concept of smart grids

– Substations and their componentsFundamentals of substation design and their components High voltage switchgear installations with air (AIS) and SF6 gas insulation (GIS), innovative switchgear solutionsSingle line configurations for transmission (HV) and distribu-tion (MV)

– Substation automation and protectionMonitoring, control and automation principles for power sys-temsProtection principles for power systemsSubstation automation including also protection functionsSubstation automation structures and architecturesProtection of generators, transformers, lines and busbarsCommunication for substation automation and protection

– Power system management and related communicationFunctions and management levels (network control)Communication in power systems (utility communication)



PrerequisitesEngineering degree, technical college qualifications or equiva-lent.Required course or equivalent experience:– CHS100 Power System TechnologyRecommended course or equivalent experience:– CHS003 Power System Analysis

Topics– Characteristics of transmission networks

In-plant generation, alternating load behavior, voltage levels, high short-circuit power/current, etc.

– Planning criteria coming from transmission networksReliability, availability, energy storage, design of the switch-gears with different configurations, etc.

– Substation insulation coordinationLightning, switching overvoltage etc.

– Substations and their componentsIn-plant generation, alternating load behavior, voltage levels, high short-circuit power/current, etc.Fundamentals of substation design and configurations for transmission and sub-transmission Switchgear installations with air (AIS) and SF6 gas insulation (GIS),TransformersLatest technology of the MV substations Innovative switchgear solutionsCircuit breaker Power transformer basicsPrinciples of instrument transformersSurge arrestersAuxiliary power supply systems of substationsEarthing of substations and lightning protection

– Civil design in substations– Challenges in substation planning– Overview on ‘special purpose’ substations– Operating of substations by substation automation systems

seen from the primary circuitSwitching, interlocking, fault handling, protection means

– Maintenance and servicing substations

MethodsLectures, demonstrations, audio-visuals, dimensioning exercises and selected examples. Visit of a substation.


CHS050Power System Stability – Applications

Course goalThe participants acquire or refresh the basic knowledge about the behavior of the power system. They understand the stability problems and learn basic procedures how to improve stability with appropriate measures.

Learning objectives– Understand the dynamic behavior of the power system– Understand the description of the power system by the net-

work equations based on Kirchhoff’s laws

– Specialized load flow applicationsfor network control i.e. state estimation, on-line load flow and contingency analysisfor on-line assessment of power system stability (wide area monitoring ) i.e. voltage stability (off-line), static and transient stability, risks for blackouts

– Short circuit calculationsEffectively and non-effectively grounded networks, ground-ing schemesCalculation method according to IEC 60909-0Fault types, short circuit impedances of linesSymmetrical components: practical access to the theoryApplication examples for all kinds of faults considering the effects of power system grounding (e.g. transformer star-point handling)

MethodsLectures, demonstrations and selected exercises. Please bring your technical pocket calculator.Demonstration of appropriate sample networks using the power system analysis software NEPLAN.

Duration3 days

CHS004Planning & Realization of HV-Substations – Applications & System Solutions

Course goalThe participants become acquainted with the basis for plan-ning of transmission networks and their primary HV-Substations (switchgears) including MV part as common part of most trans-former substations. They receive an overview of implemented solutions.

Learning objectives– Reflect an overview of the different network concepts in the

transmission and sub-transmission– Describe the requirement of HV-Substations including their

MV part– Developing of future network concepts for transmission and

sub-transmission– Explain the operation of HV-Substations– Execute the planning and dimensioning of HV-Substations

including their MV part– Explain the different configurations of substations and their

components– Explain how the primary system (switchgear) is interfaced

with the substation automation system – Developing of future network concepts for the transmission

of electrical energy

ParticipantsEngineers, consultants as well as employees from the electrical energy industry, Technical personnel of ABB companies.



CHS060Power System of the Future – Fundamentals

Course goalThe participants become familiar with the power system of the future commonly named smart grid. They understand the requirements of this future power system and learn the key definitions of smart grid. They learn the fundamentals features and the ongoing trends for the power system technology and solutions. They are aware about the interdependency between technology and business in power systems.

Learning objectives– Get an overview about the trends for future power systems– Explain the driving forces towards power system trends and

smart grids– List in addition to the conventional energies also the alterna-

tive (renewables) ones with their potential, risks and ecologi-cal footprints

– Understand the need for energy storage and the most com-mon storage technologies

– Explain the benefits and drawbacks for centralized and decentralized energy production with generation scenarios

– List some functions which are needed for the transition from today’s power systems to the smart grids of the future

ParticipantsTop managers from utilities and suppliers (like ABB), from NGOs, media and others working in the electric power busi-ness. Technical people like consultants, lead engineers, people being responsible for the power system designers and operation strategy.

PrerequisitesEngineering degree, technical college qualifications or equiva-lent, basic knowledge about the today’s power system. A tech-nical focused interest for the power grid in the future

Topics– Power system description

Generation, transmission and distribution, consumption– Ecological foot print of generation

Fuel production and waste depositCO2 and other impacts on environmentImpact on climate

– Type and potential of renewablesHydro, solar-thermal, solar-photovoltaic, wind, biomass, geo-thermal

– Energy storage for volatile productionPump storage schemes, fly-wheels, pressurized gas stor-age, batteries, thermal storages, H2, fuel cells

– Centralized vs. decentralized production Centralized: Conventional power plants (nuclear, fossil), big hydro, wind and solar plantsDecentralized: CHP, small hydro, biomass, solar-photovol-taic

– Describe the principles of phasor measurement– Explain the complexity of the power system– Explain the definition of power system stability– Describe most important means to influence the power sys-

tem stability– Describe the interaction between protection and power sys-

tem stability– Understand the principles of wide are monitoring, control

and protection– Explain the mechanism of a blackout

ParticipantsConsultants and employees from the electricity supply industry. Technical personnel from ABB companies.

PrerequisitesEngineering degree, technical college qualifications or equiva-lent.Required courses or equivalent experience:– CHS100 Power System Technology– CHS003 Power System Analysis

Topics– Large power systems like the UCTE in Europe– The power system and typical problems– Network equations and power system description– Describing and measuring voltage and current as sinusoidal

values and phasors– Sampling of data, filtering and high precision time synchroni-

zation– Classification of power system stability

Voltage stabilityRotor angle stabilityFrequency stabilityThermal stability

– Means to supervise and influence the power system stateWide area monitoring and controlWide area load shedding f voltage and frequency stabilityIslandingSystem integrity schemes

– The impact of protection on power system stability and adaptive protection

– Blackouts examples and possible prevention

MethodsLectures, demonstrations and exercises.

Duration2 days



– Explain how the increasing smartness of the market results in a better balance between generation and consumption

– Summarize the smart solutions for the power system of the future

ParticipantsTechnical people like consultants, lead engineers, people being responsible for the power system designers and operation strat-egy. Technical personnel of ABB companies.

PrerequisitesEngineering degree, technical college qualifications or equiva-lent.Required courses or equivalent experience:– CHS100 Power System Technology– CHS060 Power System of the Future

Topics– Introduction

Driving forces towards the power system of the future (smart grid)

– Power systemsPower systems today and tomorrowEcological aspects, CO2, pollution, wasteNew elements in future power systems: renewable volatile generation, HVDC, FACTS, energy storage Changes in power system topology

– Type and potential of renewablesHydro, solar-thermal, solar-photovoltaic, wind, biomass, geo-thermal

– Energy storage for volatile productionPump storage schemes, fly-wheels, pressurized gas stor-age, batteries, thermal storages, H2 (fuel cells)

– Centralized vs. decentralized production Centralized: Conventional power plants (nuclear, fossil), big hydro, wind and solar plants, long linesDecentralized: CHP, small hydro, biomass, solar-photo-voltaic, short lines

– Grid structure impacted by generation infeedInput of renewables complementing or replacing conven-tional generation at transmission levelInput of renewables at distribution level

– Smarter gridsMicrogrids for local balance of generation and consumption (“wanted islands”), net of Microgrids DC homesStability of grids with renewables and producing consumers

– Smarter energy marketsDemand-response schemesIncentives in consumer contractsSmart consumersSmart energy market

– Summary of smart solutionsControl, automation, protection, communication

MethodsLectures, demonstrations, mini-workshops.

Duration4 days (from Tuesday to Friday noon)

– Smarter gridsInput of renewables complementing or replacing conven-tional generation at transmission level: long transmission lines (HVDV), HVDC superimposed trans-mission gridInput of renewables at distribution level: meshed distribution grids with upgraded protection and control schemesMicrogrids for local balance of generation and consumption (“wanted islands”), net of MicrogridsDemand-response schemes

– Smarter energy marketsSmart homes with DC distributionConsumer participationSmart meters and smart home interfaces

– Global viewGlobal production capacities vs. global consumption needsGlobal grids

– Secondary systems enabling smartnessControl, automation, protection, communication

– InvestmentsProduction, transmission and distribution grid, reduction of energy consumption

MethodsKick-off lecture, lectures, demonstrations, audio-visual.

Duration1 day (Monday)

CHS061Power System of the Future – Applications and System Solutions

Course goalThe participants become familiar with the solutions for the future power system commonly named smart grid. They understand the requirements of this future power system in detail and learn some key solution for smarter grids. They learn to evaluate the fundamentals trends and solutions of the future power systems. They are able to judge the interdependency between technology and business in future power systems.

Learning objectives– Summarize the driving forces for the evolution of the power

system towards a smart grid– Explain the power system of the future with all its essential

components and functions– List the type, the potential and the typical location of the

renewables – Understand need and solutions for energy storage in the

power system on all levels– Compare the benefits and drawbacks of centralized and

decentralized power production– Explain the impact of the connection points of renewables

on the future grid structure– Describe the mechanism and benefits of Microgrids– Explain the concept of DC homes– Understand the special importance of stability in power sys-

tems



Need, requirements, application in engineering– The application of the standard

Modeling of functions, systems and switchgearCommunication topologies and their propertiesRedundancy and time synchronization

– The benefits of IEC 61850Examples for advanced functionality and the cost reduction potential

– Strategies for introduction and migrationDiscussion of examples

– Basics of specificationFunctional specification, availability, boundary conditions

– IEC 61850 as base for utility automationApplication domains: line protection, remote control (NCC), wind power, hydropower, distributed energy resources, etc.

MethodsLectures, group work, applied exercises and demos with state-of-the-art ABB tools.

Duration3 days

CHP142Telecontrol Protocols for Power Utilities – Fundamentals

Course goalComprehensive introduction to telecontrol protocols used by utilities to fulfill all operational and functional requirements in this application range. Comparison of protocols and its typical use.

Learning objectives– Summarize the concepts of data, protocols and standards– Summarize the requirements of the signal data flow for utili-

ties – Explain the features of the most common standardized pro-

tocols used in communication systems of power utilities and especially in substations

– List and compare the essential features of all these protocols – Explain the use of all these protocols

ParticipantsConsultants and employees from the electricity supply industry. Technical personnel of ABB companies.

PrerequisitesEngineering degree, technical college qualifications or equiva-lent; basic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems

Topics– Short summary about telecontrol requirements of utilities– Short summary about the basics of telecontrol– Protocol overview

Important features, access modes, typical use

CHP143IEC 61850 in Substation Automation Systems – Fundamentals

Course goalComprehensive introduction is given to the new protocol IEC 61850, the communication standard for utility automation systems i.e. for all related domains as substations and more.

Learning objectives– Summarize the basics of communication and of functions in

the domain of utility automation systems including protection– Summarize the properties of the signal data flow in the

power system from the power process level (e.g. switchyard) through all control levels (e.g. the bay and station level in substations) up to the network level

– List the requirements for a communication standard in pow-er systems

– Explain the need for a communication standard in the power system, especially for substation automation

– Describe the approach of IEC 61850– Explain the object oriented data model, the services and the

ISI(OSI stack– Understand the concept, definition and application of the

System Automation Configuration Description Language (SCL)

– Explain the key parts of the standard and the relationship in between all parts

– Understand some modeling examples– Identify and describe the benefits of IEC 61850


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of utility automation (e.g. of substation automation and protection) and as well as PC based data pro-cessing.Required course or equivalent experience:– CHS100 Power System Technology

TopicsSome basics of the Power System– Explain the role of the substation in the power system – Explain the role of substation automation in the power sys-

tem management– Basic functions in substation automation systemsOverview about control levels and communication paths– The requirements for a communication standard in the pow-

er system especially in substationsInteroperability, free allocation of functions, future proof

– The approach of IEC 61850The separation of data model and communication

– The data modelObjects, data and attributes, communication services

– Communication (Summery of ISO/OSI model)The communication stackMMS, TCP/IP, Ethernet

– The System Configuration description Language (SCL)



– ABB’s Security organization and involvement– Protect - Monitor - Manage

Security organizationProduct and system hardening

– Where to find cyber security informationSystem Solutions:– Important system features to protect utility automation– Basic security architecture

Disable ports / servicesRemovable media accessIndividual user accountsMalware protectionPatch managementWindows internal firewall

– Enhanced security architectureExternal firewall, routerEncrypted communication (VPN)

– Advanced security architectureIndustrial defender solution

– Provided Services in cyber securities Demos (based on ABB SAS systems/tools):– Demonstration of different security scenarios:

Close unnecessary ports and services (e.g. Telnet)Configure user accounts (SAS-HMI, Gateway, switch, IEDs)

– PC hardening:McAfee Virus Scan update and testWindows updates and patchesRemovable medias

– Backup System Acronis– Testing Tools (port scan, WireShark)– Firewall configuration

MethodsLectures, selected examples and applied demonstrations or simu-lations with ABB system and other tools.

Duration1 day

CHP106Substation Automation Functions – Applications

Course goalThe participants acquire detailed knowledge on the general philosophies and the fundamentals of today’s technology in substation automation systems. They get comprehensive infor-mation about the application functions (control, monitoring and protection) in substation automation systems of transmission and distribution networks to specify solutions for the practice. Protection is also the objective of dedicated courses but will be here handled also from the system integration perspective.

Learning objectives– Understand the requirements for the interfaces of the sub-

station i.e. towards the network control center, towards wide area functions, towards the process (switchyard) and the neighboring substation

– Explain important control, monitoring and protection func-tions in substations in detail

– IEC 60870 family for communication in power systemsStructure, implementation, handling with practical exercises of IEC 60870-5-101, 104

– DNP3.0 over serial & TCP/IPStructure implementation, handling with practical exercises

– IEC 61850 as advanced communication solution for utility automationBasic concept (see also dedicated course CHP143)

– General concepts of protocol converters– Fundamentals of power system communication

From dedicated links for protection to WANs

MethodsLectures, demonstrations, applied exercises.

Duration2 days

CHP108Cyber Security for Power Utilities – Fundamentals

Course goalThe participants acquire knowledge to understand the threats and possible attacks in Utility Automation Systems. The par-ticipants getting familiar with ABB cyber security activities and solutions. There will be demonstration of several scenarios dur-ing the class to get a better awareness of the importance in cyber security for utility automation systems.

Learning objectives– Show the threats and possible attacks in control systems– Name the cyber security standard– Become aware of ABB cyber security activities – Outline current available security solutions– Name important product & system features to protect sys-

tems– Show to deploy a system to address security– Tell how to verify and test security features– Describe available packages, like PC hardening, standalone

firewall, etc.– Show how to maintain the cyber security measures

ParticipantsConsultants and employees from the electricity supply industry. Personnel of ABB companies.

PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Recommended course or relevant experience:– CHS100 Power System Technology

TopicsCyber Security Introduction:– Cyber security awareness– Threats and possible attacks– Standards and their scope

Energy - Industrial Automation - IT



Learning objectives– Summarize all important features of the standard IEC 61850– List all requirements which may appear in the specification of

a substation automation system– Identify the impact of all these requirements in designing the

architecture of a substation automation system– Clarify the difference and the relation of functional structure

and physical architecture– Clarify the difference between a new substation project and

a retrofit project as far as it influences the architecture of a substation automation system

– Evaluate different solutions with respect to performance, availability and failure scenarios, repair rate and costs

– Derive the most recommended solution for a given set of requirements


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems Recommended course or equivalent experience:– CHP106 Substation Automation Functions

Topics– Architecture of functions in substations (control, monitoring,

protection and evaluation)Process supervision, measuring and archiving, system supervision, control and interlocking, switching sequences, automatics, self-super vision and protection.

– Application of the communication standard IEC 61850 for the functional architectureData model and domain specific services, Ethernet based communication, characteristics of process and station bus

– Most important requirements out of the specification of a substation automation system for the architecture of the resulting solutionSingle line, functional requirements, performance, availabil-ity and failure scenarios, substation topology, switchgear interface, station level interface(s), requested redundancy of functions and accepted degree of function integration

– New substations versus retrofitSpecification with minimum restrictions for new substation automation systems Short or long time coexistence of legacy parts and IEC 61850 parts for a retrofit project

– Evaluation procedures for physical system architecturesPerformance, availability and fault scenarios, repairing and relative costs Selection arguments for the best solution for a given user specification

– Explain metering and measuring functions– Explain the process interface (to the switchyard)– Explain the benefits of substation automation– Understand how the requirements for substation automation

are realized– Assess customer specifications and provider quotations


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of PC based data processing.Required course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems

Topics– Basics

Summarize the role of the substation in the power system and of substation automation in the power system managementSummarize the control, monitoring and evaluation features in substations of transmission and distribution networksSummarize the basic features of IEC 61850 as basis for the application solution

– Overall control, protection and monitoring concept and important functions including automaticsControl function, Interlocking, Synchrocheck Point-on-wave switching Automatic Switching Sequences Protection, Breaker Failure and Autoreclosure Function Voltage Control by Tap-Changers of Transformers Load Shedding and Load Restoration High-Speed Busbar Transfer Supervision of the Substation Automation System

– Substation automation solutions (examples)Logical structure and physical architecture

– Benefits of substation automation

MethodsLectures, group work, applied exercises and demos with ABB tools.

Duration2 days

CHP184System Architecture Design for Sub-station Automation with IEC 61850 – System Solutions

Course goalThe participants acquire in-depth application knowledge design-ing the architecture of substation automation systems based on IEC 61850. All requirements being potentially in the specification and their impact on the system architecture will be discussed. Included are the definitions and roles of station and process bus.



CHP131Protection in Power Plants – Applications

Course goalThe participants acquire in-depth application knowledge for power plants that enable them to design protection application solutions in practice.

Learning objectives– Learn the development steps and design a protection con-

cept– Understand and assess customer specifications and pro-

vider quotations– Study protection principles and evaluate the appropriate

protection concepts – Design protection schemes for generators and unit trans-

formers and select important protection functions– Coordinate different protections and establish selective and

graded schemes– Calculate the settings of different protection functions– Specify and verify instrument transformers– Introduce different application cases


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP102 Protection for Electrical Power SystemsRecommended course or equivalent experience:– CHS003 Power System Analysis


Positioning of power devices in the power system, faults and disturbances, generator and transformer parameters, pro-tection functions overview etc.

– Generator protection application and functionsProtection for stator fault, rotor fault, abnormal operating and system backup like: differential, stator earth-fault, inter-turn, rotor earth-fault, 100% stator earth-fault, restricted earth-fault, thermal overload, overvoltage, overcurrent, nega-tive sequence, overflux, loss of excitation, breaker failure, pole slip etc.

– Station transformer protection application and functionsDifferential, restricted earth fault, thermal overload etc.

– Auxiliary protection application and functionsOvercurrent, directional overcurrent, earth fault etc.

– Particular application cases Small, large and parallel generator, splitted phases, unit- , excitation- and auxiliary transformer etc.

– Basic calculation examples of protection settings– Current transformer requirement calculation examples

MethodsLectures, group work, applied exercises and demonstrations with ABB equipment and/or related simulations as far as appli-cable. Please bring your Notebook with you.

Duration3 days

CHP102Protection for Electrical Power Systems – Fundamentals

Course goalThe participants acquire knowledge on the general philosophies and the fundamental application of today’s technology for pro-tection systems in power stations, transmission and distribution networks and industry.

Learning objectives– Describe the classification and the technology of the protec-

tion systems– Understand the basic requirements for protection systems– Learn about the protection philosophies, principles, typical

application arrangements and tripping methodologies for dif-ferent power devices

– Explain the principles and calculation rules for instrument transformers

– Describe the influence of CT saturation and remanence– Gain an overview of the IEC standards and device function

numbers


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of PC based data processing.Recommended course or equivalent experience:– CHS100 Power System Technology


Classification and technology of protection systems– Protection in power stations

Generator and transformer protection– Protection in transmission networks

Line, transformer, busbar and breaker protection– Protection in distribution networks and industry

Busbar, line and motor protection– Overview of current and voltage transformer theory– Applied standards

MethodsLectures, demonstrations and exercises. Please bring your technical pocket calculator.




– Solution concepts for line protection Short lines, medium lines, long lines, teed-lines, high-voltage cables, multi-terminal lines …

– Protection philosophies, protection principles, typical appli-cation arrangements, tripping methodology, autoreclosing

MethodsLectures, demonstrations, design, application and calculation exercises (ca. 30% of time).


CHP133Protection for Busbars, Circuit Breakers and Power Transformers – Applications

Course goalThe participants acquire in-depth application knowledge for busbars, circuit breakers and transformers that enable them to design protection application solutions in practice.

Learning objectives– Understand the internal busbar, breaker failure and end fault

protection function– Learn the development steps and implementation of a pro-

tection concept– Understand and assess customer specifications and pro-

vider quotations– Study protection principles and evaluate the appropriate

protection concepts– Design protection schemes for busbars, circuit breakers and

transformers and select important protection functions– Coordinate different protection and establish selective and

graded schemes– Calculate the settings of different protection functions– Specify and verify instrument transformers– Introduce different application cases




Positioning of power devices in the power system, faults and disturbances, transformer and system parameters, protec-tion functions overview etc.



CHP132Protection for Transmission Lines – Applications

Course goalThe participants acquire in-depth application knowledge for transmission lines that enable them to design protection appli-cation solutions in practice.

Learning objectives– Give a short introduction to a large electrical power system– Gain an overview about the general requirements and objec-

tives of transmission line protection– Explain the measurement principles and the behavior of the

protection functions– Study protection principles and evaluate the appropriate

protection concepts – Design protection schemes for transmission lines and select

important protection functions– Coordinate different protection and establish selective and

graded schemes– Calculate the settings of some protection functions– Introduce different application cases– Specify and verify instrument transformers for use with line

protection




Positioning of power devices in the power system, faults and disturbances, line parameters, protection functions overview etc.

– Line protection functionsLine-distance, line-differential, high-resistance earth faults, autoreclosure, synchrocheck, telecommunications, power swing etc.

– Basic setting calculation examples of some protection func-tions

– Instrument transformer requirements – Calculation examples of CTs for the distance protection



Differential, thermal overload, back-up etc.– Motor protection application and functions

Differential, overcurrent, earth fault, phase unbalance etc.– High speed busbar transfer– Load shedding– Basic setting calculation examples of protection functions– Current transformer requirement calculation examples

MethodsLectures, demonstrations, design-, application- and calculation exercises (ca. 30% of time).


CHP135Specification of Instrument Transform-ers for Protection – Applications

Course goalTo know the basic theory of magnetic circuits, their applica-tion and design criteria in power systems. The participants will be enabled to specify CT requirements for different protection applications and to check the performance of manufacturer’s proposals.

Learning objectives– Know the basic theory of magnetic circuits– Control the application of instrument transformers in power

systems– Specify requirements for protection applications– Evaluate behavior of from instrument transformer manufac-

turers and check performance with respect to the standard specifications

ParticipantsDesign, planning, engineering and application engineers and consultants from the electricity supply industry, technical per-sonnel from ABB companies.

PrerequisitesElectrical or mechanical engineering degree, technical college qualifications or equivalent. Required course or relevant experience:– CHP102 Protection for Electrical Power Systems


General description of instrument transformers, mode of operation and application

– Theory of magnetic circuit and of the transformers in generalConnection diagrams of CTs, the magnetizing current, bur-dens, saturation etc.

– The transient behaviorCurrent and voltage-transients, transient performance

– Non conventional types of instrument transformers

– Busbar, breaker failure and end fault protection application and functions

– Transformer protection application and functionsDifferential, thermal overload, restricted earth fault etc.

– Basic setting calculation examples of protection functions– Calculation examples of CTs



CHP134Protection for Distribution Networks and Industry – Applications

Course goalThe participants acquire in-depth application knowledge for distribution networks and industry that enable them to design protection application solutions in practice.

Learning objectives– Go into typical characteristics of distribution networks as far

as operation modes, grounding possibilities and fault types– Learn the development steps and implementation of a pro-

tection concept– Understand and assess customer specifications and pro-

vider quotations– Design protection schemes for different power devices (lines,

transformers and motors etc.) and select important protec-tion functions

– Coordinate different protection and establish selective and graded schemes

– Calculate the settings of different protection functions– Specify and verify instrument transformers– Introduce different application cases




Network types, installations and power devices, faults and disturbances, protection functions overview etc.

– Line and cable protection application and functionsOvercurrent, directional overcurrent, earth fault, line differen-tial, distance, autoreclosure etc.

– Transformer protection application and functions



Required courses or equivalent experience:– CHS003 Power System Analysis– CHP132 Protection for Transmission LinesRecommended course or relevant experience:– CHP133 Protection for Busbars, Circuit Breakers and Power

Transformers

Topics– Symmetrical and related components in power system– General characteristics of a very large power system

Characteristics, classification of power system stability, state transitions, transfer of power, series compensation, increased power transfer capability

– Line protection functions and advanced applicationsImprovements and properties in modern distance protection, measurement of distance, impact of fault impedance, appar-ent impedance and load encroachment, load compensa-tion, distance relay characteristics and polarization, distance zones and phase selection, impedance loops calculation, full scheme operation, influence of load flow and fault resistance measurements. Protection using tele-communication. Earth fault protection. Line differential protection, powerful auto-reclosing function.

– Setting of distance zonesThe setting cycle, grading charts for zone. effect of inter-mediate in-feeds. variation of the reach depending on the switching state of the system, Thévenin’s equivalent circuit, and reduction of existing network for investigation with NEPLAN Power System Analysis Tool

– Line protection in complex transmission network configura-tionsMulti-circuit transmission lines, mutual coupling on parallel lines, classes of networks, setting considerations, multi-terminal and tapped lines, composed lines, modeling a com-plex network configuration, staged fault tests

– Case studies with NEPLAN Power System Analysis Tool– Power swing and out-of-step relaying

Energy transmission shown on two-machine mode, power transfer curves, system stability, power swing and out-of-step relaying, impedances seen by relays during power swing, loss of synchronism, conventional power swing detection, electrical quantities during swings, improved detection of power swing, out-of-step relaying, effect of a slipping generator, split of generator shaft, adaptive load shedding with islanding, advantages of the pole slip function

MethodsLectures, demonstrations, exercises in system design, applica-tion and calculation.


– ExercisesPractical calculation examples for different protection types

– StandardsIEC, ANSI, IEC 60044-6, practical examples, CT classes

MethodsLectures, calculation examples of protection CTs, according to actual IEC standards and multi ratio types.Please bring your technical pocket calculator.

Duration2 days

CHP181Advanced Protection in Transmission Networks – System Solutions

Course goalThe participants acquire in-depth knowledge about the protec-tion setting calculation based on electrical power system stud-ies. In addition they perform protection concepts and coordina-tion studies. They have an awareness of protection problems associated with the operation of such systems and acquire the necessary analytical and mathematical skills for handling par-ticular problems related to the protection schemes of complex transmission network configuration.

Learning objectives– Refresh the symmetrical and related components in Power

System– Identify the state of the art of modern numerical protection

devices– Identify the extent of functional integration in modern protec-

tion devices transmission– Study the protection on complex transmission network con-

figurations– Explain the techniques used for protection of line compen-

sated with series capacitors – Describe the impact of series compensated lines on protec-

tion of adjacent lines– Be capable of power swing and Out-of-Step considerations

on transmission lines– Prepare a protection setting coordination study for double

circuit lines in complex transmission network configurations– Analyse the fundamental problems associated with multi-

terminal and tapped lines.– Evaluate basic protection schemes covering the above men-

tioned applications and proposals for adequate solutions to the protection problems


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.



CHP115Relion® series Introduction with PCM600 – Operation & Maintenance

Course goalThe participants acquire knowledge on the structure, concepts, functions and the technical data of the equipment. They practice the device installation and operation as well as the handling of the parameter setting using the operating program PCM600.

Learning objectives– Describe the main features, benefits and characteristic of the

equipment– Explain the system software and hardware architecture– Give the full skills about the operating program, needed PC

environment and its installation procedure– Operate the device terminal using its local control panel

(LDU/LCP)– Explain the self-supervision concept of the product– Interpret alarm signals and event lists– Use possibilities of collecting and displaying fault records– Gain an overview about the station communication interface– Name possible cyber security features– Parameterization, downloading and error handling of the

device– Functional check of the device (commissioning and mainte-

nance)


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or relevant experience:– CHP102 Protection for Electrical Power Systems Recommended course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems


Main features, application, documentation, tools– Hardware and software concept

System layout and components, identification, technical data, functionality

– HMI program (human machine interface) and LDU (local dis-play unit) or LCP (local control panel)Configuration and parameters, event/alarm handling, data display, diagnostics, operation of process, etc.

– Operation and maintenanceInstallation, functional check, error handling, safety instruc-tions

MethodsLectures, demonstrations, practical exercises and hands-on.

Duration3 days

CHP182Advanced Protection in Industrial Networks – System Solutions

Course goalThe participants acquire in-depth knowledge about the planning and elaboration of protection concepts for industrial networks. They can analyze and evaluate protection concepts for an entire industrial plant network as well as describe the causes of pro-tection malfunction.

Learning objectives– Provide an overview of different network structures and pro-

tection concepts in industrial plants– Explain the role of different protection concepts in industrial

power systems– Analyze an existing protection concept of industrial networks

and elaborate protection concepts on basis of a short-circuit calculation

– Selection of the protective devices according to the network protection concept of the industrial plant

– Explain the influence of the neutral point connection of the industrial network on the network protection


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required courses or equivalent experience:– CHS003 Power System Analysis– CHP134 Protection for Distribution Networks and Industry

Topics– Different network structures and protection concepts– Network protection conception and planning on the basis of

short-circuit calculations for the industrial network (current/time grading, back-up protection, impedance grading)

– Preparation of selectivity diagrams for the industrial network on basis of short-circuit calculations

– Consideration of different boundary conditions (thermal short-circuit capability of equipment, maximum load currents in normal operation, in case of (n-1)- and emergency -opera-tion, max. voltage drop during start-up of motor, max. per-missible short-circuit duration of the generators, circulating currents during power swings, arcing fault etc.)

– Influence of the cable dimensioning on the network protec-tion concept

– Possibilities of detection of single-phase-to-ground faults in industrial networks

MethodsLectures, demonstrations, design exercises and selected exam-ples from class participants and lecturer.

Duration3 days





CHP156Relion® 670/650 series for Generator Protection Solutions – Configuration

Course goalThe participants acquire in-depth product knowledge that enables them to implement generator protection solutions in practice. They are using the operating program PCM600 to manage, structure, configure and program a protection applica-tion. They are able to integrate an RE.670 into an SA system.

Learning objectives– Understand product/system architecture and its ordering

specification– Explain the basic configuration principle– Describe the tool environment and installation– Configure device hardware, alarms and event handling– Implement protection application solution with the tool on

the training models– Configure fault recording function handling– Configure the communication interface to the system– Realize additional logic with the logic editor e.g. trip scheme– Implement modifications in the system such as additional

alarms and functions– Identify possible cyber security features– Test and verify the implemented application examples– Troubleshoot the system, using the application and configu-

ration manual


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP131 Protection in Power PlantsRecommended course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems

Topics– Product/System architecture

HW/SW structure, system layout and components, applica-tions, identification, technical data, functionality, documenta-tion

– Operating program overview and conceptsTool environment, function library, data display, application concept, configuration principle, system integration

– An applied exampleCreation of the function block diagram with signal configura-tion

CHP155Relion® 670 series for Transmission Protection Solutions – Configuration

Course goalThe participants acquire in-depth product knowledge that enables them to implement line protection solutions in practice. They are using the operating program PCM600 to manage, structure, configure and program a protection application. They are able to integrate an RE.670 into an SA system.


specification– Describe the tool environment and installation– Explain the basic configuration principle– Configure device hardware, alarms and event handling– Implement protection application solutions with the tool on

the training models– Configure the communication interface to the system– Configure fault recording function handling– Realize additional logic with the logic editor e.g. trip scheme– Implement modifications in the system such as additional

alarms, graphic displays and functions– Identify possible cyber security features– Test and verify the implemented application example– Troubleshoot the system, using the application and configu-

ration manual


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or relevant experience:– CHP132 Protection for Transmission LinesRecommended courses or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems– CHP133 Protection for Busbars, Circuit Breakers and Power

Transformers





– Testing of products or systemApplication verification, troubleshooting and diagnostic, safety instructions





– Testing of products or systemApplication verification, trouble-shooting and diagnostic, safety instructions


Duration2 days

CHP041Relion® 650 series for Transmission Protection Solutions – Configuration

Course goalThe participants acquire in-depth product knowledge that enables them to implement transmission protection solutions in practice. They are using the operating program PCM600 to structure, configure and program a protection application. They are able to integrate an RE.650 into an SA system.


specification– Describe the tool environment and installation– Explain the basic configuration principle– Configure device hardware, alarms and event handling– Implement protection application solutions with the tool on

the training models– Configure the communication interface to the system– Configure fault recording function handling– Realize additional logic with the logic editor e.g. trip scheme– Implement modifications in the system such as additional


ration manual


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or relevant experience:– CHP132 Protection for Transmission LinesRecommended courses or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems– CHP133 Protection for Busbars, Circuit Breakers and Power

Transformers




CHP165Relion® 670 series for Control Solu-tions – Configuration

Course goalThe participants acquire in-depth product knowledge that enables them to implement control solutions in practice. They are using the operating program PCM600 to manage, structure, configure and program a control application. They are able to integrate an RE.670 into an SA system.


specifications– Describe the tool environment and installation– Explain the basic configuration principle– Configure device hardware, alarms and event handling– Implement control application solution with the tool on the

training models– Configure fault recording function handling– Configure the communication interface to the system– Realize additional logic with the logic editor e.g. interlocking

scheme– Implement modifications in the system such as additional


ration manual– State safety rules and instructions to be observed when

working on the equipment


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP143 IEC 61850 in Substation Automation SystemsRecommended course or equivalent experience:– CHP106 Substation Automation Functions



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450405060708

461112131415

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482526272829

490203040506

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ABB University SwitzerlandCourse Schedule 2013

January February March April May June July August September October November December Week Mo Tu We Th Fr

WeekThe latest version of our course schedule can be found on Internet:www.abb.ch/abbuniversity —> (“change preferences” to Switzerland and English)

All courses can be conducted on request in other languages with English documentation.Mo3Mo3 English German e.g. Starting day is Monday, with 3 course day duration

Mo Monday; Tu Tuesday; We Wednesday; Th Thursday; Fr Friday* The courses are German spoken, but with English documentation.

No. daysPower Systems Basic Courses Power System Technology - Fundamentals CHS100 5Power System Analysis - Fundamentals CHS003 3Planning & Realization of HV-Substations - Applications & System Solutions CHS004 5Power System Stability - Applications CHS050 2Power System of the Future – Fundamentals CHS060 1Power System of the Future – Applications & System Solutions CHS061 4 Substation Automation and Protection Basic Courses IEC 61850 in Substation Automation Systems – Fundamentals CHP143 3Cyber Security for Power Utilities - Fundamentals CHP108 1Telecontrol Protocols for Power Utilities - Fundamentals CHP142 2Substation Automation Functions - Applications CHP106 2System Architecture Design for Substation Automation with IEC 61850 – System Solutions CHP184 3Protection for Electrical Power Systems - Fundamentals CHP102 5Protection in Power Plants - Applications CHP131 5Protection for Transmission Lines - Applications CHP132 5Protection for Busbars, Circuit Breakers and Power Transformers - Applications CHP133 5Protection for Distribution Networks and Industry - Applications CHP134 5Specification of Instrument Transformers for Protection - Applications CHP135 2Advanced Protection in Transmission Networks – System Solutions CHP181 5Advanced Protection in Industrial Networks – System Solutions CHP182 3 Product Courses Relion® series Introduction with PCM600 - Operation & Maintenance CHP115 3Relion® 670 series for Transmission Protection Solutions - Configuration CHP155 5Relion® 670/650 series for Generator Protection Solutions - Configuration CHP156 5Relion® 670 series for Control Solutions - Configuration CHP165 2Relion® 650 series for Transmission Protection Solutions - Configuration CHP041 4Relion® 615 series - Operation & Engineering P261 2Relion® 630 series - Operation P263 1Relion® 630 series - Programming P264 2REB500/REB500sys Busbar and Station Protection System - Operation & Maintenance CHP113 3REB500/REB500sys for Busbar & Station Protection Solutions - Configuration CHP153 2IET600/ITT600 for IEC 61850 Integration & Testing - System Integration CHP191 3MicroSCADA Pro for Substation Automation - Operation CHP122 2Substation Automation System - Maintenance CHP126 3MicroSCADA Pro for Substation Automation Solutions - Configuration CHP172 3RTU560 Remote Terminal Unit Basic - Configuration CHP030 3RTU560 Remote Terminal Unit Advanced - Configuration CHP031 3RTU560 as IEC 61850 Gateway - Configuration CHP175 2IET600/ITT600 for SAS600 Maintenance - System Integration CHP194 5

= public holiday

Organising Learning Centre (LC): LC Substation Automation and Protection, Baden

Mo3

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Mo5

Mo5

Mo5

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We1

We3Mo2We3

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Fundamentals Applications

Field area Power Systems and Substation Automation & Protection

CHS100 Page 3Power System Technology - Fundamentals

5 days

CHS003 Page 3Power System Analysis- Fundamentals

3 days

CHS060 Page 5Power System of the Future – Fundamentals

1 day

CHP102 Page 10Protection for Electrical Power Systems - Fundamentals

5 days CHP131 Page 10Protection in Power Plants - Applications

5 days

CHP132 Page 11Protection for Transmission Lines - Applications

5 days

CHP133 Page 11Protection for Busbars, Circuit Breakers and Power Transformers - Applications

5 days

CHP134 Page 12Protection for Distribution Networks and Industry - Applications

5 days

CHP181 Page 13Advanced Protection in Transmission Networks – System Solutions

5 days

CHP182 Page 14Advanced Protection in Industrial Networks – System Solutions

3 days

CHP108 Page 8Cyber Security for Power Utilities - Fundamentals

1 day

CHP143 Page 7IEC 61850 in Substation Automation Systems – Fundamentals

3 days

CHP142 Page 7Telecontrol Protocols for Power Utilities - Fundamentals

2 days

CHP106 Page 8Substation Automation Functions - Applications

2 days

CHS050 Page 4Power System Stability - Applications

2 days

CHP184 Page 9System Architecture Design for Substation Automation with IEC 61850 - System Solutions

3 days

System Solutions

Power Systems

Protection

Substation Automation

Fundamentals

Applications

System Solutions

Typical Target Group Clients:Planning Personnel, Commissioning Personnel, System Engineers, Consultants and Others Typical Target Group ABB Personnel:Engineering Personnel, Testing Personnel, Commissioning Personnel, Service Personnel

Typical Target Group Clients:Executives, Operators, Maintenance Personnel, Consultants and Others Typical Target Group ABB Personel:Managers, Sales, Project Managers

CHS100

CHS100CHS003

CHS100 CHS100CHS003

CHP143

CHP143

CHS061 Page 6Power System of the Future – Applications & System Solutions

4 days

CHS004 Page 4Planning & Realization of HV-Substations - Applications & System Solutions

5 days

CHS100

CHP143 CHP106

CHP102CHS003

CHS100

CHS003 CHP132

CHP133

CHS003CHP134

CHS100CHS060

CHP102CHS003

CHP102CHS003

CHP102CHS003

CHP135 Page 12Specification of Instrument Transformers for Protection - Applications

2 days CHP102

CHS100 = Previous course or equivalent experience is recommended

CHS100 = Previous course or equivalent experience is required !

Page ## = Page number of the course description (*) = Course on Request (**) = Special course only for ABB SAS600 series Projects

“Take the rigth train”Course Selection Table – Basic Courses

The participants acquire in-depth knowledge in order to design on system level and define complex system solutions by combining all the relevant application know how (e.g. planning and design of power grids, overall study of a protection concepts, communication architecture of a substation, etc.)

The course selection table shows: course number, title, duration, prerequired courses and the page of the course description. As well, the general course dependency over the three different skill levels (Fundamentals, Application Solutions and System Design) in the different field areas. According to your job function and yourexperience in the subject area, you should select the neededcourse modules under the consideration of the course dependencyand prerequisites. For the course details please consider the course description or goto our webpage:http://www.abb.ch/abbuniversity --> (setting "Your preferences" to: Switzerland / English) --> Substation Automation & Protection

The participants acquire in-depth knowledge in order to design specific application functions in practice (e.g. base design of a transformer protection application, CT calculations, basic setting calculation of protectuon function, application experiences of ABB, etc.)

The participants acquire fundamental knowledge on generalphilosophies and today's technologies (e.g. basic structures, concepts, coherences with other technologies, etc.)

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Operation & Maintenance

Field areas Power Systems and Substation Automation & Protection

CHP155 Page 15Relion® 670 series for Transmission Protection Solutions - Configuration

5 daysCHP115 Page 14Relion® series Introduction with PCM600 - Operation & Maintenance

3 days

CHP113 Page 24REB500/REB500sys Busbar and Station Protection System - Operation & Maintenance

3 days

CHP032 (*) Page 31RTU560 Remote Terminal Unit PLC Programming - Configuration

3 days

CHP122 (**) Page 27Substation Automation System - Operation

2 days

CHP126 (**) Page 28Substation Automation System - Maintenance

3 days

CHP030 Page 30 RTU560 Remote Terminal Unit Basic - Configuration

3 days

CHP172 (**) Page 29MicroSCADA Pro for Substation Automation Solutions - Configuration

3 days

CHP191 Page 27IET600/ITT600 for IEC 61850 Integration & Testing - System Integration

3 days

System Integration

Bay Level Products

Station Level Products

Operation& Maintenance

Configuration

SystemIntegration

Typical Target Group Clients:Planning Personnel, Commissioning Personnel, System Engineers, Consultants and Others Typical Target Group ABB Personel:Engineering Personnel, Testing Personnel, Commissioning Personnel, Service Personnel

Typical Target Group Clients:Executives, Operators, Maintenance Personnel, Consultants and Others Typical Target Group ABB Personel:Managers, Sales, Project Managers

Configuration

CHP156 Page 15Relion® 670/650 series for Generator Protection Solutions - Configuration

5 days

CHP165 Page 16 Relion® 670 series for Control Solutions - Configuration

2 days

P264 Page 24Relion® 630 series - Programming

2 daysP263 Page 23 Relion® 630 series - Operation

1 day

CHP153 Page 25 REB500/REB500sys for Busbar & Station Protection Solutions - Configuration

2 days

CHP175 Page 31RTU560 as IEC 61850 Gateway - Configuration

2 days

CHP041 Page 16 Relion® 650 series for Transmission Protection Solutions - Configuration

4 days

System Level Products

P261 Page 23Relion® 615 series - Operation & Engineering

2 days

CHP132

CHP133 CHP143

CHP102CHP143

CHP102CHP143

CHP102CHP143

CHP102CHP143

CHP102CHP143

CHP131CHP143

CHP143CHP106

CHP132 CHP143CHP133

P263CHP143

CHP113CHP133 CHP143

CHP143CHP115

CHP114 (*) Page 25REF542plus Feeder Protection & Control IED - Operation & Maintenance

2 days CHP164 (*) Page 26 REF542plus for Control and Protection Solutions - Configuration

4 daysCHP134 CHP143

CHP143

CHP151 (*) Page 26 REG216/316*4 for Generator Protection Solutions - Configuration

4 daysCHP102CHP131

CHP171 (*) Page 29PSM500 Power System Monitoring - Configuration

3 days

CHP122CHP143 CHP126

CHP143CHS100

CHP122 CHP143

CHP115 CHP143

CHS142 CHS100

CHP030

CHP143

CHS100 = Previous course or equivalent experience is recommended

CHS100 = Previous course or equivalent experience is required !

CHP031 Page 30RTU560 Remote Terminal Unit Advanced - Configuration

3 days CHP030 CHP142

CHP194 (**) Page 32 IET600/ITT600 for SAS600 Maintenance - System Integration

5 days CHP143CHP172 CHP115

Page ## = Page number of the course description (*) = Course on Request (**) = Special course only for ABB SAS600 series Projects

CHP192 (*) Page 28ITT600 SAS Explorer for IEC61850 Systems - Operation & Maintenance

2 daysCHP143

“Take the rigth train”Course Selection Table – Product Courses

The course selection table shows: course number, title, duration, prerequired courses and the page of the course description. As well, the general course dependency over the three different skill levels (Operation, Configuration and System Integration) in the different field areas. According to your job function and your experience in the subject area, you should select the needed course modules under the consideration of the course dependency and prerequisites.For the course details please consider the course description or go to our webpage:http://www.abb.ch/abbuniversity --> (setting "Your preferences" to: Switzerland / English) --> Substation Automation & Protection

The participants acquire product basics such as structures, functions, operating programs as well as installation and operation (e.g. HW structure, function overview, using of HMI's, etc.)

The participants acquire in-depth product knowledge in order to implement an application function in practice (e.g. base configuration and testing of the IED, min. 50% hands-on, testing, troubleshooting, etc.)

The participants acquire in-depth system knowledge to integrate components into a substation automation system (e.g. product integra-tion, system troubleshooting, etc.)

Pow

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22 AB

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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52

13101020304

20708091011

31415161718

42122232425

52829303101

60405060708

71112131415

81819202122

92526272801

100405060708

111112131415

121819202122

132526272829

140102030405

150809101112

161516171819

172223242526

182930010203

190607080910

201314151617

212021222324

222728293031

230304050607

241011121314

251718192021

262425262728

270102030405

280809101112

291516171819

302223242526

312930310102

320506070809

331213141516

341920212223

352627282930

360203040506

370910111213

381617181920

392324252627

403001020304

410708091011

421415161718

432122232425

442829303101

450405060708

461112131415

471819202122

482526272829

490203040506

500910111213

511617181920

522324252627

ABB University SwitzerlandCourse Schedule 2013

Week

The latest version of our course schedule can be found on Internet:www.abb.ch/abbuniversity —> (“change preferences” to Switzerland and English)

All courses can be conducted on request in other languages with English documentation.

No. days remarks Substation Automation and Protection Product Courses (on request)REF542plus Feeder Protection & Control IED - Operation & Maintenance CHP114 2 on requestREF542plus for Control and Protection Solutions - Configuration CHP164 4 on requestREG216/316*4 for Generator Protection Solutions - Configuration CHP151 4 on requestPSM500 Power System Monitoring - Configuration CHP171 3 on requestRTU560 Remote Terminal Unit PLC Programming - Configuration CHP032 3 on requestITT600 SAS Explorer for IEC61850 Systems - Operation & Maintenance CHP192 2 on request

= public holiday

Organising Learning Centre (LC): LC Substation Automation and Protection, Baden

January February March April May June July August September October November December Week Mo Tu We Th Fr




Duration2 days

P263Relion® 630 series – Operation

Course goalThe aim of this course is to familiarize the participants with the operation and setting of 630 series of IEDs by using REF630 feeder protection relay and PCM600.

Learning objectives– Perform all the basic operations from the local HMI (Human

Machine Interface)– Read and clear events and alarms– Use Web HMI– Manage the parameter settings with PCM600 tool and with

Web HMI– Setting and reading the disturbance recordings


PrerequisitesBasic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP102 Protection for Electrical Power Systems Recommended course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems

Topics– Functionality and principles of Relion® 630 series– Introduction to REF630, RET630 and REM630– Presentation of PCM600 tools– Setting the relay (Local HMI, Web HMI, PCM600)– Disturbance handling– Event viewer


Duration1 day







Duration4 days

P261Relion® 615 series – Operation & Engineering

Course goalThe aim of this course is to familiarize the participants with the operation, setting and engineering of 615 series of IEDs by using REF615 feeder protection relay and PCM600.

Learning objectives– Perform all the basic operations from the local HMI (Human

Machine Interface)– Read and clear events and alarms– Manage the relay settings – Upload disturbance recordings – Program the relay inputs, outputs, alarm LED’s and func-

tions – Configure the GOOSE communication


PrerequisitesBasic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP102 Protection for Electrical Power Systems Recommended course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems

Topics– Introduction to REF615, RED615, RET615 and REM615 – Presentation of tool PCM600 – Local HMI, Web HMI – Setting the relay (LHMI, Web HMI, PCM600)– Setting and reading the disturbance recorder– Signal Matrix Tool (SMT)– GOOSE engineering






(HMI)– Explain the self-supervision concept of the product – Name possible cyber security features– Interpret alarm signals and event lists– Use possibilities of collecting and displaying fault records– Gain an overview about the station communication interface– Parameterization, downloading and error handling of the


nance)– Troubleshoot the system, using the application and configu-

ration manual


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required courses or relevant experience:– CHP102 Protection for Electrical Power SystemsRecommended course or equivalent experience:– CHP143 IEC 61850 for Substation Automation




– HMI program (human machine interface) and LDU (local dis-play unit) or LCP (local control panel)Configuration and parameters, event/alarm handling, data display, diagnostics, operation of process etc.




Duration3 days

P264Relion® 630 series – Programming

Course goalThe aim of this course is to familiarize the participants with pro-gramming and communication configuration of 630 series of IEDs by using REF630 feeder protection relay and PCM600.

Learning objectives– Know the configuration principles and programming process

of 630 series– Modify pre-configurations– Create the relay configuration with PCM600 tool– Modify the graphical display– Manage the relay configurations– Create GOOSE communication


PrerequisitesBasic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– P263 Relion® 630 series - OperationRecommended course or equivalent experience:– CHP143 IEC 61850 for Substation Automation

Topics– Most common configuration tasks of 630 series– Hardware of Relion® 630 series– PCM600 tools for IED configuration– Configuration of the protection, control and measurement

functions– Local HMI programming– Pre-configurations– GOOSE configuration


Duration2 days

CHP113REB500/REB500sys Busbar and Station Protection System – Operation & Maintenance

Course goalThe participants acquire knowledge on the structure, concepts, installation, functions and the technical data of the equipment. They practice the device installation and operation as well as the handling of the parameter setting using the operating program HMI500 REBWIN. In a second step they learn to adapt an exist-ing configuration with further protection applications. Finally they are able to integrate an REB500 into an SA system



CHP114REF542plus Feeder Protection and Control IED – Operation & Maintenance

Course goalThe participants acquire knowledge on the structure, concepts, functions, its application and the technical data of the equip-ment. They practice the device installation, operation and main-tenance as well as the handling of the parameter settings using the operating program REF542 HMI.




(LDU/LCP)– Explain the self-supervision concept of the product– Interpret alarm signals and event lists– Use possibilities of collecting and displaying fault records– Win an overview about the station communication interface– Name possible cyber security features– Parameterization, downloading and error handling of the


nance)


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP102 Protection for Electrical Power SystemsRecommended course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems




– HMI program (human machine interface) and LDU (local dis-play unit) or LCP (local control panel)Configuration and parameters, event list and alarm handling, measurement display, diagnostics, operation of process etc.



Duration2 days

CHP153REB500/REB500sys for Busbar and Station Protection Solutions – Configuration

Course goalThe participants acquire in-depth product knowledge that enables them to implement station protection solutions in prac-tice. They are using the configuration program HMI500 Con-figurator to program a new protection system with all necessary applications. They are able to integrate an REB500 into an SA system.

Learning objectives– Understand the product/system architecture and its ordering

specifications– Explain the basic configuration principle– Describe the tool environment and installation– Configure a new system: single line, hardware and signal

configuration– Implement protection application solution with the tool – Identify possible cyber security features– Verify the configured application


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required courses or equivalent experience:– CHP113 REB500/REB500sys Busbar and Station Protection

System– CHP133 Protection for Busbars, Circuit Breakers and Power

TransformersRecommended course or equivalent experience:– CHP143 IEC 61850 for Substation Automation



– Configuration program overview and conceptsTool environment, function library, data display, application concept, configuration principle, system integration

– Applied exampleExtend an existing project with new feederCreation of a setfile along with an actual project and its specifications e.g. single line diagram and connection dia-grams

– VerificationFinal test by software verification and analysis of possible error messages


Duration2 days



Duration4 days

CHP151REG216/316*4 for Generator Protection Solutions – Configuration

Course goalThe participants acquire in-depth product knowledge that enables them to implement generator protection solutions in practice. They are using the operating program CAP2/316 to manage, structure and configure a protection application. They are able to integrate REG216/REG316*4 into an SA system.


specifications– Explain the basic configuration principle– Describe the tool environment and installation– Configure device hardware, alarms and event handling– Implement protection application solutions with the tool on

the training models– Configure fault recording function handling– Configure the communication interface to the system– Realize additional logic with the logic editor e.g. trip scheme– Implement modifications in the system such as additional

alarms and functions– Test and verify the implemented application examples– Trouble-shoot the system, using the application and configu-

ration manual


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP102 Protection for Electrical Power SystemsRecommended courses or equivalent experience:– CHP131 Protection in Power Plants– CHP143 IEC 61850 in Substation Automation Systems






CHP164REF542plus for Control and Protection Solutions – Configuration

Course goalThe participants acquire in-depth product knowledge that enables them to implement control and protection solutions in practice. They are using the operating program REF542 HMI to manage, structure and configure a control application.


specification– Install the software tool environment– Describe the tool environment and installation– Configure device hardware, alarms and event handling– Implement control application solution with the tool on the

training model– Configure the communication interface to the system– Configure fault recording function handling– Realize additional logic with the logic editor e.g. interlocking

scheme– Implement modifications in the system such as additional


ration manual– State safety rules and instructions to be observed when

working on the equipment


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP134 Protection for Distribution Networks and IndustryRecommended course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems

Topics– Product/system architecture




– Testing of product or systemApplication verification, troubleshooting and diagnostic, safety instructions




– PCM600 for Relion® IED configuration (e.g. REC670)Adding GOOSE receive function block (input section, e.g. for breaker failure, transfer trip, interlocking, etc)Creating dataflow (scl file import/export)

– IET600 Update with IED / GOOSE modificationUpdate/Verify IED (cid/icd/iid file import / scd file export)Breaker failure start with GOOSEInterlocking via GOOSE (create GCB and its dataset for required switch positions)ABBs bay reservation concept with GOOSE: Creating GCB and its dataset containing reservation signals for bay reser-vation

– Test an IEC 61850 system with the practical use of ITT600 SA Explorer testing toolMain features, Explore IEDs (with and without scd file),Browsing of standalone IEC 61850 IEDs,Analyzer, Goose Oscilloscope,Testing and commissioning of the training system,How to benefit from the scd file during the whole life cycle processLoading the relevant parts of the scd file with help of the product tool into the product used in the training system

MethodsLectures, demonstrations, practical exercises and hands-on. Approximately 60% of the course is hands-on activities.

Duration3 days

CHP122MicroSCADA Pro for Substation Automation – Operation

Course goalThe participants acquire knowledge on the structure, concepts, functions and the technical data of the system. They learn to operate the substation automation system based on Windows with MicroSCADA Pro and its SA-LIB libraries.

Learning objectives– List and describe the main features and characteristics of

the system– Operate the process using the MicroSCADA HMI– Interpret alarm signals and event lists


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required course or equivalent experience:– CHP143 IEC 61850 in Substation Automation SystemsRecommended course or equivalent experience:– CHS100 Power System Technology


Duration4 days

CHP191IET600/ITT600 for IEC 61850 Integra-tion & Testing – System Integration

Course goalThe participants acquire in-depth application knowledge to maintain, modify and testing components of an ABB IEC 61850 system. They are using Relion© products and the IET600 (Inte-grated Engineering Toolbox), the ITT600 (Integrated Testing Toolbox) and PCM600 (Protection & Control IED Manager), to commission the modified signals.

Learning objectives– State most important features of the standard IEC 61850– Describe Ethernet and to use its communication compo-

nents like switches– Explain the IEC 61850 integration process for modification of

the dataflow– Use the system integration tool IET600 to apply various

modifications in an IEC 61850 system– Identify all important features of product integration into the

IEC 61850System– Set the modified and reconfigured system into operation– Troubleshoot the IEC 61850 system by using the ITT600 tool

for system testing and debugging

ParticipantsBay level engineering, testing and commissioning personnel and consultants from the electricity supply industry. Technical per-sonnel of ABB companies.

PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required courses or relevant experience:– CHP143 IEC 61850 in Substation Automation Systems– A selection out of the product courses from the Relion®

series like: CHP115, CHP040, P261, P263, CHP113 or CHP114

Topics– Summary of the features of the IEC 61850

Main features important for the system integration and the related tools

– The modification process for IEC 61850 based systems– The concept and handling of the IET600 system integration

tool (scl file import/export)– Single Line Diagram– IEC 61850 dataflow modification

IET600 data modification approaches, workflow with IET600 based projectsImport/Export of scl data (icd, cid, scd and iid files)Dataset, GCB, RCB modification and dataflow generationAdding Station and/or gateway client



as well as PC based data processing.Required courses or relevant experience:– CHP122 MicroSCADA Pro for Substation AutomationRecommended course or equivalent experience– CHP143 IEC 61850 in Substation Automation Systems

Topics– MicroSCADA system architecture

Standard concepts, configurations, process database– MicroSCADA Engineering

Display Editor (Introduction, Structure, Editing)Database handling (Structure, Objects, Functions)Test Dialog

– MicroSCADA MaintenanceApplication Programming (Introduction into SCIL)ITT600 SA Explorer (ABB’s IEC61850 testing tool)

– Network Control Centre ConnectionGateway Functionality /COM500) with sample IEC101 Proto-col, Protocol Analyzer

– Communication and SupervisionCommunications supervision, diagnostic handling, Ethernet and Switch Technology

– MicroSCADA human machine interfaceSafety instructions, standard concepts, functionality, exer-cise

– Step by Step procedure for various recovery scenarios– MicroSCADA trouble-shooting

Backup and restore, hardware troubleshooting, monitor IEC 61850 bus, exercise


Duration3 days

CHP192ITT600 SA Explorer for IEC 61850 Systems – Operation & Maintenance

Course goalThe participants acquire knowledge to test efficiently IEDs and Substation Automation System in the context of IEC 61850.

Learning objectives– Describe the main features and benefits of the tool– Describe the IEC 61850 engineering with SCL– Browsing of standalone IEC 61850 IEDs– Inspect IED data model– Enable and check report control blocks– Check consistency of the exchanged data in any IEC 61850

Substation Automation System– Compare data and services of IED integrated in systems

with these ones in the SCD as result of the engineering– Analyze the traffic on the Ethernet– Visualize the sequence of GOOSE messages over the time

Topics– Overall Concept of SA Systems

Introduction into MicroSCADA, Standard Configurations (ABB SAS 600 series)

– MicroSCADA BasicsStartup and Stop of MicroSCADA application, Monitor Pro handling (Header, Icons, Information), User Management (Add/Remove User, Define Authorization group)

– MicroSCADA OperationOperation procedure, Forced operationCounter, alarm state, blocking, simulationBay and L/R switch (Authority handling gateway)Measurements, Limits, Alarms, Dead band settingsEvent List (Filtering, Coloring)Alarm List (Filtering, Coloring)Signal naming conventionTrend ReportsMeasurement ReportsBlocking List

– MicroSCADA human machine interfaceSafety instructions, standard concepts, functionality, exer-cise


Duration2 days

CHP126Substation Automation System – Maintenance

Course goalThe participants acquire knowledge on the handling of the replacement of a defective unit, so that they know how to con-figure spare components replacing the faulty unit and to set the repaired system in operation again.

Learning objectives– Troubleshoot the system, using the operation and mainte-

nance manual– Replace defective IEDs and all other components (station

computer, gateway, switch, GPS clock etc.) in the substa-tion automation system

– State the safety rules and instructions to be observed when working on the equipment

– Configure the replaced units by appropriate tools and down-loading the relevant product and system configuration files

– Name possible cyber security features– Backup/restore the whole system


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation



PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Required courses or equivalent experience:– CHP122 MicroSCADA Pro for Substation Automation– CHP143 IEC 61850 in Substation Automation SystemsRecommended course or relevant experience:– CHP126 Substation Automation System

Topics– Introduction to substation automation

Standard definitions, configurations, functionality, products– MicroSCADA database handling

Database import/export, database attributesMicroSCADA Monitor Pro display builder (principals) includ-ing busbar coloring Standard concepts, configurations, functionality

– IEC 61850 OPC-serverIntroduction, configuration with scd-file, communication parameter, diagnostic

– DA clientIntroduction, configuration with PO-list, communication parameter, diagnostic tools

– Gateway COM500i (e.g. COM600C or standard MicroSCA-DA)Gateway functionality and features, protocol parameters used X-reference tool (gateway database engineering) Grouping, scaling, converting (e.g. single to double) Typical master simulator setup with ASETool (e.g. IEC101, IEC104, DNP 3.0) Testing of GI, test command, measurands, alarms, position indications, switch commands

– Commissioning of demo-systemExercise with demo-system, testing and trouble shooting, safety instructions


Duration3 days

CHP171PSM500 Power System Monitoring – Configuration

Course goalThe participants acquire in-depth system knowledge that enables them to implement a Power System Monitoring solution in practice. They are using the operating program PSM500 tool-box (E_wineve, E_database and E_com) to manage structure and configure a project. They are able to integrate several termi-nals into the PSM500 system.


PrerequisitesEngineering degree, technical college qualifications or equiva-lent; basic knowledge of protection and substation automation as well as PC based data processingRequired course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems


Main features, installation, documentation– IEC 61850 Engineering with SCL– Tool module introduction– Tool module use cases

MethodsLectures, demonstrations, practical exercises and hands-on

Duration2 days

CHP172MicroSCADA Pro for Substation Automation Solutions – Configuration

Course goalThe participants acquire knowledge on the structure, concepts, functions and the technical data of the system. They create a configuration for the Substation Automation System based on Windows with MicroSCADA Pro and its SA-LIB libraries.

Learning objectives– List and describe the main features and characteristic of the

system– Explain the system software and hardware concepts and the

system basic configuration principles– Change parameters such as database objects, signal texts,

measurement scaling and others– Create graphic displays e.g. single line diagrams, overview

pictures, system overview picture with new SA-LIB (new graphical user interface with zoom, panning and de-clutter-ing functionality)

– Create reports e.g. daily energy reports– Create specific command routines– Setting up an IEC 61850 OPC server and its DA client for

sending the signals to the MicroSCADA database based on predefined scd-file and database

– Create a NCC connection with database engineering (e.g. IEC 101 protocol)

– Identify possible cyber security features– Modify existing application programs




CHP030RTU560 Remote Terminal Unit Basic – Configuration

Course goalTo know in general the RTU560 hardware components, con-figuration setting, and system architecture with the telecontrol protocol options of the Remote Terminal Unit RTU560. To be able to install RTUtil 560, communicate with the RTU560 by the Internet Explorer. To be able to download and upload files, diagnose the RTU560. To be able to listen to telecontrol com-munication and record it.

Learning objectives– Installation of PC software: The tool RTUtil560– Network tree, signal tree, hardware tree concept– Configuration options of RTU560A, RTU560C– Cabinets, subracks and hardware modules– Diagnosis by the Integrated Webserver Excel– Excel Import/Export function of RTUtil560– Process data acquisition and telecontrol functions (SCADA)– Configure NCC communication protocols

ParticipantsTechnicians involved with EMS operations.

PrerequisitesGeneral knowledge of RTU technology.Required course or equivalent experience:– CHP142 Telecontrol Protocols for Power UtilitiesRecommended course or equivalent experience:– CHP100 Power System Technology

Topics– The configuration tool RTUtil560– System concept of the RTU560– CPU and interface (Ethernet, PC card, GPS…)– RTU560 diagnostics– Configuration of NCC protocols IEC 60870-5-101,104– Test facilities: Using the Comprotware test tool

MethodLecture, demos and hands-on.

Duration3 days

CHP031RTU560 Remote Terminal Unit Advance – Configuration

Course goalThe participants acquire in-depth RTU560 knowledge to be able to configure & engineer a communication application within a SA system. He will extend his skills especially concerning con-figuration, extensions and trouble shooting. The Redundancy Concept of the RTU560 concerning power supplies, communi-cation lines and communication units will be discussed, and the participant will be informed about properties and limits. Learn


specification– Describe the tool environment and its installation– Carry out different configuration options– Setup project and network structure– Setup connectivity (e.g. LAN, WAN, IEC 61850, etc.)– Configure the communication interface to the system– Import functions from existing configuration files– Configure transmission of alarms and fault information with

SW E_notify– Integrate existing fault recorder devices like Relion® plat-

form, REB500, etc.– Integrate 3rd party systems– Explain the security and user concept– Introduction to use the analysis software E_wineve– Test and verify the implemented application example– Troubleshoot the system using the application and configu-

ration manual


PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation as well as PC based data processing.Recommended courses or equivalent experience:– CHP115 Relion® series Introduction with PCM600– CHP143 IEC 61850 in Substation Automation Systems

Topics– Product/system architecture



– An applied exampleCreation of the system structure with signal configuration

– SW-modules and setup the operation:E_com: manual and automatic communication and sponta-neous data transferE_notify: automatic transmission of alarms and fault informa-tionE_wineve (professional & expert): fault analysis SW

– Testing of systemApplication verification, troubleshooting and diagnostic, safety instructions


Duration3 days



Learning objectives– The participant is able to extend the configuration of an

RTU560 by a PLC program– The programs which were created by using the tool MULTI-

PROGwt can be loaded into the RTU560 and be tested by the participant

ParticipantsTechnicians involved with engineering, commissioning or main-taining an RTU560.

PrerequisitesGeneral knowledge of RTU technology.Required course or equivalent experience:– CHP030 RTU560 Remote Terminal Unit Basic

Topics– Concept of the Programmable Logic Controller– Configuration basics of function block diagram programming

according IEC61131-3: project tree, library types, program organization units, global and local variables, tasks, func-tions

– Libraries and their modules– Cyclic tasks and system tasks– Extension of a project in RTUtil560 by a PLC-program– MULTIPROGwt – handling of the tool– Exercise program concerning binary and analog processing

and command handling

MethodLectures, demos and hands-on.

Duration3 days

CHP175RTU560 as IEC 61850 Gateway – Configuration

Course goalTo know in general the RTU560 hardware components, configu-ration setting and test facilities.To be able to configure IEC61850 devices in the RTU560.

Learning objectives– Introduction in IEC61850 standard structure used protocol

elements– Understand RTU560 Gateway functionality– Data flow: EXCEL import of IEC61850 configuration into

RTU560– Configure NCC communication protocols IEC 60870-5-

101,104– Configure device hardware CPU and interfaces (Ethernet,

GPS ...)– Test facilities: Using the Comprotware test tool for NCC pro-

tocol analysis– Test facilities: Using the test tool for IEC61850 protocol

analysis

the features and possibilities of the ‘Integrated Human Machine Interface’, and will be trained in making his own station picture, to control a substation.

Learning objectives– System integration of subordinated RTUs, Master- and Slave

function– RTU560 Redundancy Concept for power supplies, commu-

nication lines and units– RTU560 System Data Interface (System Events)– Properties of the ‘Integrated Human Machine Interface’ (HMI)– Creation of a single line diagram for switchgear by using the

‘Integrated HMI’– Fault tracing and eliminating in an operating RTU560 by the

Webserver– Implement modifications in the system such as additional

signals, commands Analyzing telecontrol protocols based upon protocol family IEC60870-5-101, IEC60870-5-103, -IEC60870-5-104

– Identify possible cyber security features– Exercises with subordinated devices– Troubleshoot the system, using the application and configu-

ration manual

ParticipantsTechnicians involved with engineering, commissioning or main-taining an RTU560.

PrerequisitesGeneral knowledge of RTU technology and knowledge of the substation and switchgear technology of the different voltage levels.Required courses or equivalent experience:– CHP030 RTU560 Remote Terminal Unit Basic– CHP142 Telecontrol Protocols for Power Utilities

Topics– Specific RTUtil560 configuration aspect– Redundant configuration aspect– Specifics NCC configuration transmission protocols aspect– HMI configuration– Test facilities: with Comprotware test tool for NCC protocol– Special features system events, archive & logic functions

MethodLecture, demo and hands-on.

Duration3 days

CHP032RTU560 Remote Terminal Unit PLC Programming – Configuration

Course goalTo learn to write “Programmable Logic Controller“ (PLC) pro-grams with the graphical tool MULTIPROGwt.



PrerequisitesEngineering degree, technical college qualifications or equiva-lent, experience with SA automation systems, also with cus-tomer specificationsRequired basic courses or relevant experience:– CHP143 IEC 61850 in Substation Automation Systems– CHP172 MicroSCADA Pro for Substation Automation Solu-

tions– A selection out of the product courses from the Relion®

series like: CHP115, CHP040, P261, P263, CHP113 or CHP114

Topics– Summary of the features of the IEC 61850

Main features important for the system integration and the related tools

– The system modification process for SAS600 series systems with IET based projects

– The concept and handling of the IET600 system integration tool (scl file import/export)

– Single Line Diagram– IET600 database modification

IET modification approaches, workflow with IET600 based projectsImport/Export of scl data (icd, cid, scd files)Dataset, GCB, RCB modification and dataflow generationOverview of database generation approachHMI aspect: “Mapped To”, LN/OI rules, IN/ON rulesHMI and Gateway signal engineering

– IET600 Update with IED / GOOSE modification Update/verify IED (cid/icd file import, scd file export)ABBs bay reservation concept with GOOSE (creating GCB and its dataset containing reservation signals), Interlocking via GOOSE (create GCB and its dataset for required switch positions)

– PCM600 for IED configuration (Relion® series IED670, IED650, IED630, IED615)Assign GOOSE input section in SMT (reservation and inter-locking)

– MicroSCADA Pro modificationCET: Loading IEC 61850 OPC Server with modified scd file and testing with built-in online diagnosticsImport modified MicroSCADA database, reload DA-client and verify modified communication

– 3rd party device modificationE.g. Siemens SIPROTEC or Areva MiCOM

– MicroSCADA COM500i gateway functionality (equal to SYS600C functionality)IET600 NCC modification for indications BI/DB/AI, alarm groups, commands (protocols IEC101/104, DNP3.0)Signal and command handling, transmission class, NCC addresses

– Test an IEC 61850 system with the practical use of ABB testing tool ITT600 SA ExplorerMain features, Explore IEDs (with and without scd file), Ana-lyzer, Goose Oscilloscope, Testing and commissioning of the training system,How to benefit from the SCD file during this processLoading down the relevant parts of the SCD file with help of the product tool into the product used in the training system

ParticipantsTechnicians involved with EMS operations.

PrerequisitesEngineering degree, technical college qualifications or equiva-lent. Basic knowledge of protection and substation automation, practice of protocol analysis as well as PC based data process-ing.Required course or equivalent experience:– CHP143 IEC 61850 in Substation Automation Systems

Topics– IEC61850 overview– Use of the tool RTUtil560– Configuration of NCC protocols– Configuration of IEC61850 protocol– Protocol analysis with simulation tools

MethodLecture, demos and hands-on.

Duration2 days

CHP194IET600/ITT600 for SAS600 Maintenance – System Integration

Course goalThe participants acquire in-depth application knowledge to maintain, modify and testing components of a substation auto-mation system. It is based on ABB IEC 61850 SAS600 series system with MicroSCADA Pro with built in gateway COM500i (equal to SYS600C functionality), Relion® and 3rd party prod-ucts. They are using the IET600 SAS (Integrated Engineering Toolbox for SAS600), the ITT600 (Integrated Testing Toolbox) and PCM600 (Protection & Control IED Manager).

Learning objectives– Sum up all features of the standard IEC 61850 which are

important for the system integration and related tools– Describe Ethernet and to use its communication compo-

nents like switches– Explain the integration process for SAS600 systems– Use the system integration tool IET600 to apply various

modification in SAS600 series system– Identify all important features of system maintenance in

IEC 61850 technology– Perform modification in a sample system – Set the modified and reconfigured system into operation

(maintenance/commissioning)– Identify possible cyber security features– Troubleshoot IEC 61850 system by using the ITT600 tool for

system testing and debugging

ParticipantsOnly for customer engineers with an ABB SAS600 series system including IET600SAS, i.e. people who are maintaining, testing or commissioning SAS600 systems based on IEC 61850. Techni-cal personnel from ABB companies.



– Maintain a sample MicroSCADA application with all its rel-evant settingsE.g. communication, display with switching objects, NCC link configuration

– How to set the system in operation and check, if it’s running as specified and intended

MethodsLectures, group work, approx. 60% applied exercises, system integration and commissioning of a sample system.



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