the iec 61850 standard. communication for … for the implementation of these deve-lopments in the...
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The IEC 61850 standardCOMMUNICATION FOR SUBSTATION AUTOMATION SYSTEMS,
SMART GRID, ELECTRIC VEHICLE AND RENEWABLE ENERGY
THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy
www.fc i rce .es
CIRCE Foundation · CIRCE Building
Campus Río Ebro. Mariano Esquillor Gómez, 15
50018 Zaragoza (Spain)
Tel. +34 976 761863 · Fax +34 976 732078
Email. [email protected]
2
he ongoing evolution of the electrical in-
dustry can be proved, nowadays, by the de-
ployment of Smart Grids technologies,
aiming at a more efficient and sustainable use of
energy. These goals require the upgrade of the net-
work, enhancing the ICT capabilities of the grid, in
order to support a bidirectional data exchange, an
indispensable basis for the interaction demanded
by the new services. This approach leads to, for
some years now and as an extended convention,
TCP/IP solutions. The IEC 61850 standard, a con-
sequence of this roadmap, is designed to provide a
framework for the implementation of these deve-
lopments in the local networks of electrical substa-
tions. Its wide scope and advantages resulted, as
well, in its extension to Smart Grid and renewable
energy scenarios or Electric Vehicle charge control.
tools leading to captive clients, entail integration
designs (convertors, multiplexers, etc.) in facilities
where devices from different vendors are installed.
Therefore, the deployment of IEC 61850 shall bring
along an important reduction of cost for the electrical
companies, regarding deployment, materials and
maintenance in their facilities. Besides, the installa-
tion of the associated LAN communications paves
the way for a whole new market of services, given the
possibilities of ICT solutions. Integrated remote
access or advanced reaction to faults are more a re-
ality than ever. Beyond Substation Automation
Systems, the standard extends its focus to respond
to the demands of the new electrical scenarios,
such as renewable energies or Smart Grid techno-
logies: inter-center communication, control of dis-
tributed resources or vehicle charging systems.
The demand for IEC 61850 qualified professionals
shall increase from now on, for the deployment of
these technologies in the electrical systems. All re-
levant suppliers already include the IEC 61850
communication protocols and configuration capa-
bilities in their main products. The international im-
pulse of the standard is, unquestionably, increasing
and destined to become the market leader. For
example, in 2013, 31% of SAS were estimated as im-
plemented by means of IEC 61850, with potential
to overcome every other alternative1, and ABB, in
2014, had already distributed worldwide more than
3000 IEC 61850 SAS2.
O N L I N E C O U R S E
T
IEC 61850 makes it possible to deploy TCP/IP solutions in Substation Automation Systems, Smart Grid, renewable energy and ElectricVehicle scenarios.
All relevant suppliers of the electricalsector already include IEC 61850communication protocols and configuration capabilities in their main products.
www.fcirce.es/courseIEC61850
IEC 61850 comes up as a standardized, complete
proposal (modeling, configuration, communication)
to assure the interoperability amongst different ven-
dors. Currently, Substation Automation Systems are
based on proprietary solutions, which are supplier-
dependent and, apart from specific knowledge and
1.- Market Trends Digest, Newton Evans Resarch Company.
2.- ABB Relion® webinar.
5th Edition
New beginning date: 18th April 2016
CursoLatam_IEC-61850-Triptico_ENG 31/03/2016 9:59 Página 1
The IEC 61850 standardCOMMUNICATION FOR SUBSTATION AUTOMATION SYSTEMS,
SMART GRID, ELECTRIC VEHICLE AND RENEWABLE ENERGY
THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy
www.fc i rce .es
CIRCE Foundation · CIRCE Building
Campus Río Ebro. Mariano Esquillor Gómez, 15
50018 Zaragoza (Spain)
Tel. +34 976 761863 · Fax +34 976 732078
Email. [email protected]
2
he ongoing evolution of the electrical in-
dustry can be proved, nowadays, by the de-
ployment of Smart Grids technologies,
aiming at a more efficient and sustainable use of
energy. These goals require the upgrade of the net-
work, enhancing the ICT capabilities of the grid, in
order to support a bidirectional data exchange, an
indispensable basis for the interaction demanded
by the new services. This approach leads to, for
some years now and as an extended convention,
TCP/IP solutions. The IEC 61850 standard, a con-
sequence of this roadmap, is designed to provide a
framework for the implementation of these deve-
lopments in the local networks of electrical substa-
tions. Its wide scope and advantages resulted, as
well, in its extension to Smart Grid and renewable
energy scenarios or Electric Vehicle charge control.
tools leading to captive clients, entail integration
designs (convertors, multiplexers, etc.) in facilities
where devices from different vendors are installed.
Therefore, the deployment of IEC 61850 shall bring
along an important reduction of cost for the electrical
companies, regarding deployment, materials and
maintenance in their facilities. Besides, the installa-
tion of the associated LAN communications paves
the way for a whole new market of services, given the
possibilities of ICT solutions. Integrated remote
access or advanced reaction to faults are more a re-
ality than ever. Beyond Substation Automation
Systems, the standard extends its focus to respond
to the demands of the new electrical scenarios,
such as renewable energies or Smart Grid techno-
logies: inter-center communication, control of dis-
tributed resources or vehicle charging systems.
The demand for IEC 61850 qualified professionals
shall increase from now on, for the deployment of
these technologies in the electrical systems. All re-
levant suppliers already include the IEC 61850
communication protocols and configuration capa-
bilities in their main products. The international im-
pulse of the standard is, unquestionably, increasing
and destined to become the market leader. For
example, in 2013, 31% of SAS were estimated as im-
plemented by means of IEC 61850, with potential
to overcome every other alternative1, and ABB, in
2014, had already distributed worldwide more than
3000 IEC 61850 SAS2.
O N L I N E C O U R S E
T
IEC 61850 makes it possible to deploy TCP/IP solutions in Substation Automation Systems, Smart Grid, renewable energy and ElectricVehicle scenarios.
All relevant suppliers of the electricalsector already include IEC 61850communication protocols and configuration capabilities in their main products.
www.fcirce.es/courseIEC61850
IEC 61850 comes up as a standardized, complete
proposal (modeling, configuration, communication)
to assure the interoperability amongst different ven-
dors. Currently, Substation Automation Systems are
based on proprietary solutions, which are supplier-
dependent and, apart from specific knowledge and
1.- Market Trends Digest, Newton Evans Resarch Company.
2.- ABB Relion® webinar.
5th Edition
New beginning date: 18th April 2016
CursoLatam_IEC-61850-Triptico_ENG 31/03/2016 9:59 Página 1
PURPOSE
Qualify the students, with the necessary skills and technical
abilities, for planning, analyzing and maintaining configu-
rations of IEC 61850 control and protection solutions in
electrical systems.
STUDENT PROFILE
Electrical sector professionals and anyone interested in ex-
panding their knowledge in Substation Automation Systems
and new communication technologies in electrical networks.
COMPETENCIES
l Consolidate knowledge of control and protection
systems for electrical networks.
l Understand the structure, objectives and main technical
aspects of the standard.
l Define models of the main substation elements accor-
ding to the standard criteria.
l Interpret and adjust CID files for the configuration of
different IEDs.
l Select and configure the data sent by a device using the
IEC 61850 communication protocols.
l Expand knowledge about LAN technologies, focused on
their application to electrical substations and Smart Grid.
l Analyze and understand IEC 61850 communication
protocols messages.
THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy
– Control, protection and remote control systems of electrical substations.
– Overview of the IEC 61850 standard.
– Introduction to communication protocols, TCP/IP model and LAN technologies.
Program
INTRODUCTION
THE IEC 61850 STANDARD
– Data model: structure, types and modeling of the real physical elements.
– Services: abstract description prior to their implementation through protocols.
– IEC 61850 communication protocols: performance of services. Message structure.
IMPLEMENTATION
– Configuration of IEDs/Control and protection devices.
– Practical examples of configuration and protocol analysis.
– Smart Grid and renewable energy plants applications.
3 4 5
OVERVIEW OF REAL
SOLUTIONS IN SUBSTATIONS
– Market common specifications for protection and control equipment of substations
in accordance with the IEC 61850 standard.
– Practical case: Endesa’s first pilot substation with an IEC 61850 solution in Spain.
CONCLUSIONS – Assessment, future lines of the standard and other applications.
DEVELOPMENT
The course is organized through an online platform, where
students can find all learning materials and additional re-
sources, such as videos and complementary readings.
In addition to the individual study, the students will have
discussion forums at their disposal for each unit and on-
going assistance by the teachers, so they can solve doubts
and the debate and information exchange are encouraged.
Besides, regular online tutoring sessions will take place and
will be recorded and added to the course contents.
The course follow-up will be evaluated through an ongoing
assessment mechanism, with theoretical and practical
exercises at the end of several teaching units.
In addition to a theoretical approach to the standard, the
course has a significant practical component, supported
by CIRCE’s experience in developing real cases, which
allows students to delve into the details of the standard,
reinforcing the acquired knowledge.
This training takes place as online learning. It has an academic duration of 5 ECTS credits (European Credit Transfer
System) and it is developed over 8 weeks. During them, students dedication reaches a total of 125 hours of work, in-
cluding the self-study hours as well as tutoring sessions, seminars, exercise resolution and practices. This assumes
an average of 16 hours per week.
1,250.-€
Students’ opinions
It is obvious that the course was not prepared in “a couple of days”, on the contrary, very good support
material and excellent training of all teachers. It helped me to have another approach of the standard,
namely that it is not designed only for substations and especially in labors of configuration, integration
and commissioning at work.
The satisfaction surveys average of the course is 8,43.
Telecommunication Engineer. University of Zaragoza.
DURATION
COURSE FEE
“
“
Natalia Muñoz Guzmán from E.P.R. (Central America TSO).
“
“
I really appreciated that the trainer was a good connoisseur of the exposed material, which facilitates
the learning. The written materials provided are a very good tool to start working in the IEC 61850
environment.
18th April 2016STARTING DATE
Tuition fees, content, teaching materials and certificate are included.
Special rates (Not combinable): the following groups may opt to specific discounts on the price of the course. For that,
it is necessary to provide documentation accrediting the student as a member of this group at the time of registration.
l Partner association members: 20%.
l Groups of 3 or more employees of the same company: 10%.
Payment will be made to an account number which will be provided at the time of registration. Later, it will be neces-
sary to upload the payment receipt to the course registration site.
If a company is interested in forming groups of their employees, please contact to [email protected] to access
special conditions.
“
“
Clear exposition and very good material. It will be very useful for the pilot of a project I am working on.
Iñaki Gómez from M.E.S.A. (Schneider group).
Professional from G.N.F. (Spanish DSO).
Inscriptions: www.fcirce.es/courseIEC61850
He works for CIRCE since 2001, currently as Manager of the Electrical Substations Area, where he
has participated in more than 150 projects of control, protection and remote control of substations
for Endesa and REE. Amongst them, the engineering project of the 61850 control system of the
standardized pilot project (Smart Substation) of Endesa, and his participation in the engineering of
the Smart City Malaga project of Endesa can be remarked.
For years he has been involved in consulting services in the design of substations provided to Endesa
by CIRCE.
David Llombart
She works for CIRCE since 2011 as Project Manager in the ICT Group of the Electrical Substations Area
of CIRCE, where she has gained her wide experience in IEC 61850 systems. It stands out her participation
in the standardized pilot project (Smart Substation) of Endesa, being in charge of the development of
software tools for sending, reading and interpretation of IEC 61850 communication protocols.
She has also participated in projects of communications programming between Electric Vehicle and fast
charging posts or test automation of the control and protection equipment in substations.
Yasmina Galve
Industrial Engineer in Electricity. University of Zaragoza
He works for CIRCE since 2009, currently as ICT Group Director of the Electrical Substations Area
of CIRCE, where he has gained his wide experience in IEC 61850 systems. In this field, he has accom-
plished significant actions, such as his collaboration in the technical committee of The E3 Group, for
the development of the common specification of Spanish electricity companies on the IEC 61850
standard; and the technical direction of the standardized pilot project (Smart Substation) of Endesa,
for the introduction of IEC 61850 in its current control systems designs.
He has also participated in comparative studies about the implantation of communication protocols
in the management systems of Electric Vehicle charging and other electrical networks.
Jesús Torres
Telecommunication Engineer. University of Zaragoza.
Previous editions
This course has been taken by staff from:
l E.P.R. (Central America TSO)
l E.S.E. (Peruvian DSO)
l Abengoa (Renewable energy Company)
l M.E.S.A. (Schneider group)
l Many electrical and engineering companies
l G.N.F. (Spanish DSO)
l Iberdrola (Spanish DSO)
l U.T.E. (Uruguayan TSO)
l C.A.E.S.S. (Salvadoran DSO)
l E.P.M. (Colombian Utility)Teaching
body
CursoLatam_IEC-61850-Triptico_ENG 31/03/2016 9:59 Página 2
PURPOSE
Qualify the students, with the necessary skills and technical
abilities, for planning, analyzing and maintaining configu-
rations of IEC 61850 control and protection solutions in
electrical systems.
STUDENT PROFILE
Electrical sector professionals and anyone interested in ex-
panding their knowledge in Substation Automation Systems
and new communication technologies in electrical networks.
COMPETENCIES
l Consolidate knowledge of control and protection
systems for electrical networks.
l Understand the structure, objectives and main technical
aspects of the standard.
l Define models of the main substation elements accor-
ding to the standard criteria.
l Interpret and adjust CID files for the configuration of
different IEDs.
l Select and configure the data sent by a device using the
IEC 61850 communication protocols.
l Expand knowledge about LAN technologies, focused on
their application to electrical substations and Smart Grid.
l Analyze and understand IEC 61850 communication
protocols messages.
THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy
– Control, protection and remote control systems of electrical substations.
– Overview of the IEC 61850 standard.
– Introduction to communication protocols, TCP/IP model and LAN technologies.
Program
INTRODUCTION
THE IEC 61850 STANDARD
– Data model: structure, types and modeling of the real physical elements.
– Services: abstract description prior to their implementation through protocols.
– IEC 61850 communication protocols: performance of services. Message structure.
IMPLEMENTATION
– Configuration of IEDs/Control and protection devices.
– Practical examples of configuration and protocol analysis.
– Smart Grid and renewable energy plants applications.
3 4 5
OVERVIEW OF REAL
SOLUTIONS IN SUBSTATIONS
– Market common specifications for protection and control equipment of substations
in accordance with the IEC 61850 standard.
– Practical case: Endesa’s first pilot substation with an IEC 61850 solution in Spain.
CONCLUSIONS – Assessment, future lines of the standard and other applications.
DEVELOPMENT
The course is organized through an online platform, where
students can find all learning materials and additional re-
sources, such as videos and complementary readings.
In addition to the individual study, the students will have
discussion forums at their disposal for each unit and on-
going assistance by the teachers, so they can solve doubts
and the debate and information exchange are encouraged.
Besides, regular online tutoring sessions will take place and
will be recorded and added to the course contents.
The course follow-up will be evaluated through an ongoing
assessment mechanism, with theoretical and practical
exercises at the end of several teaching units.
In addition to a theoretical approach to the standard, the
course has a significant practical component, supported
by CIRCE’s experience in developing real cases, which
allows students to delve into the details of the standard,
reinforcing the acquired knowledge.
This training takes place as online learning. It has an academic duration of 5 ECTS credits (European Credit Transfer
System) and it is developed over 8 weeks. During them, students dedication reaches a total of 125 hours of work, in-
cluding the self-study hours as well as tutoring sessions, seminars, exercise resolution and practices. This assumes
an average of 16 hours per week.
1,250.-€
Students’ opinions
It is obvious that the course was not prepared in “a couple of days”, on the contrary, very good support
material and excellent training of all teachers. It helped me to have another approach of the standard,
namely that it is not designed only for substations and especially in labors of configuration, integration
and commissioning at work.
The satisfaction surveys average of the course is 8,43.
Telecommunication Engineer. University of Zaragoza.
DURATION
COURSE FEE
“
“
Natalia Muñoz Guzmán from E.P.R. (Central America TSO).
“
“
I really appreciated that the trainer was a good connoisseur of the exposed material, which facilitates
the learning. The written materials provided are a very good tool to start working in the IEC 61850
environment.
18th April 2016STARTING DATE
Tuition fees, content, teaching materials and certificate are included.
Special rates (Not combinable): the following groups may opt to specific discounts on the price of the course. For that,
it is necessary to provide documentation accrediting the student as a member of this group at the time of registration.
l Partner association members: 20%.
l Groups of 3 or more employees of the same company: 10%.
Payment will be made to an account number which will be provided at the time of registration. Later, it will be neces-
sary to upload the payment receipt to the course registration site.
If a company is interested in forming groups of their employees, please contact to [email protected] to access
special conditions.
“
“
Clear exposition and very good material. It will be very useful for the pilot of a project I am working on.
Iñaki Gómez from M.E.S.A. (Schneider group).
Professional from G.N.F. (Spanish DSO).
Inscriptions: www.fcirce.es/courseIEC61850
He works for CIRCE since 2001, currently as Manager of the Electrical Substations Area, where he
has participated in more than 150 projects of control, protection and remote control of substations
for Endesa and REE. Amongst them, the engineering project of the 61850 control system of the
standardized pilot project (Smart Substation) of Endesa, and his participation in the engineering of
the Smart City Malaga project of Endesa can be remarked.
For years he has been involved in consulting services in the design of substations provided to Endesa
by CIRCE.
David Llombart
She works for CIRCE since 2011 as Project Manager in the ICT Group of the Electrical Substations Area
of CIRCE, where she has gained her wide experience in IEC 61850 systems. It stands out her participation
in the standardized pilot project (Smart Substation) of Endesa, being in charge of the development of
software tools for sending, reading and interpretation of IEC 61850 communication protocols.
She has also participated in projects of communications programming between Electric Vehicle and fast
charging posts or test automation of the control and protection equipment in substations.
Yasmina Galve
Industrial Engineer in Electricity. University of Zaragoza
He works for CIRCE since 2009, currently as ICT Group Director of the Electrical Substations Area
of CIRCE, where he has gained his wide experience in IEC 61850 systems. In this field, he has accom-
plished significant actions, such as his collaboration in the technical committee of The E3 Group, for
the development of the common specification of Spanish electricity companies on the IEC 61850
standard; and the technical direction of the standardized pilot project (Smart Substation) of Endesa,
for the introduction of IEC 61850 in its current control systems designs.
He has also participated in comparative studies about the implantation of communication protocols
in the management systems of Electric Vehicle charging and other electrical networks.
Jesús Torres
Telecommunication Engineer. University of Zaragoza.
Previous editions
This course has been taken by staff from:
l E.P.R. (Central America TSO)
l E.S.E. (Peruvian DSO)
l Abengoa (Renewable energy Company)
l M.E.S.A. (Schneider group)
l Many electrical and engineering companies
l G.N.F. (Spanish DSO)
l Iberdrola (Spanish DSO)
l U.T.E. (Uruguayan TSO)
l C.A.E.S.S. (Salvadoran DSO)
l E.P.M. (Colombian Utility)Teaching
body
CursoLatam_IEC-61850-Triptico_ENG 31/03/2016 9:59 Página 2
PURPOSE
Qualify the students, with the necessary skills and technical
abilities, for planning, analyzing and maintaining configu-
rations of IEC 61850 control and protection solutions in
electrical systems.
STUDENT PROFILE
Electrical sector professionals and anyone interested in ex-
panding their knowledge in Substation Automation Systems
and new communication technologies in electrical networks.
COMPETENCIES
l Consolidate knowledge of control and protection
systems for electrical networks.
l Understand the structure, objectives and main technical
aspects of the standard.
l Define models of the main substation elements accor-
ding to the standard criteria.
l Interpret and adjust CID files for the configuration of
different IEDs.
l Select and configure the data sent by a device using the
IEC 61850 communication protocols.
l Expand knowledge about LAN technologies, focused on
their application to electrical substations and Smart Grid.
l Analyze and understand IEC 61850 communication
protocols messages.
THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy
– Control, protection and remote control systems of electrical substations.
– Overview of the IEC 61850 standard.
– Introduction to communication protocols, TCP/IP model and LAN technologies.
Program
INTRODUCTION
THE IEC 61850 STANDARD
– Data model: structure, types and modeling of the real physical elements.
– Services: abstract description prior to their implementation through protocols.
– IEC 61850 communication protocols: performance of services. Message structure.
IMPLEMENTATION
– Configuration of IEDs/Control and protection devices.
– Practical examples of configuration and protocol analysis.
– Smart Grid and renewable energy plants applications.
3 4 5
OVERVIEW OF REAL
SOLUTIONS IN SUBSTATIONS
– Market common specifications for protection and control equipment of substations
in accordance with the IEC 61850 standard.
– Practical case: Endesa’s first pilot substation with an IEC 61850 solution in Spain.
CONCLUSIONS – Assessment, future lines of the standard and other applications.
DEVELOPMENT
The course is organized through an online platform, where
students can find all learning materials and additional re-
sources, such as videos and complementary readings.
In addition to the individual study, the students will have
discussion forums at their disposal for each unit and on-
going assistance by the teachers, so they can solve doubts
and the debate and information exchange are encouraged.
Besides, regular online tutoring sessions will take place and
will be recorded and added to the course contents.
The course follow-up will be evaluated through an ongoing
assessment mechanism, with theoretical and practical
exercises at the end of several teaching units.
In addition to a theoretical approach to the standard, the
course has a significant practical component, supported
by CIRCE’s experience in developing real cases, which
allows students to delve into the details of the standard,
reinforcing the acquired knowledge.
This training takes place as online learning. It has an academic duration of 5 ECTS credits (European Credit Transfer
System) and it is developed over 8 weeks. During them, students dedication reaches a total of 125 hours of work, in-
cluding the self-study hours as well as tutoring sessions, seminars, exercise resolution and practices. This assumes
an average of 16 hours per week.
1,250.-€
Students’ opinions
It is obvious that the course was not prepared in “a couple of days”, on the contrary, very good support
material and excellent training of all teachers. It helped me to have another approach of the standard,
namely that it is not designed only for substations and especially in labors of configuration, integration
and commissioning at work.
The satisfaction surveys average of the course is 8,43.
Telecommunication Engineer. University of Zaragoza.
DURATION
COURSE FEE
“
“
Natalia Muñoz Guzmán from E.P.R. (Central America TSO).
“
“
I really appreciated that the trainer was a good connoisseur of the exposed material, which facilitates
the learning. The written materials provided are a very good tool to start working in the IEC 61850
environment.
18th April 2016STARTING DATE
Tuition fees, content, teaching materials and certificate are included.
Special rates (Not combinable): the following groups may opt to specific discounts on the price of the course. For that,
it is necessary to provide documentation accrediting the student as a member of this group at the time of registration.
l Partner association members: 20%.
l Groups of 3 or more employees of the same company: 10%.
Payment will be made to an account number which will be provided at the time of registration. Later, it will be neces-
sary to upload the payment receipt to the course registration site.
If a company is interested in forming groups of their employees, please contact to [email protected] to access
special conditions.
“
“
Clear exposition and very good material. It will be very useful for the pilot of a project I am working on.
Iñaki Gómez from M.E.S.A. (Schneider group).
Professional from G.N.F. (Spanish DSO).
Inscriptions: www.fcirce.es/courseIEC61850
He works for CIRCE since 2001, currently as Manager of the Electrical Substations Area, where he
has participated in more than 150 projects of control, protection and remote control of substations
for Endesa and REE. Amongst them, the engineering project of the 61850 control system of the
standardized pilot project (Smart Substation) of Endesa, and his participation in the engineering of
the Smart City Malaga project of Endesa can be remarked.
For years he has been involved in consulting services in the design of substations provided to Endesa
by CIRCE.
David Llombart
She works for CIRCE since 2011 as Project Manager in the ICT Group of the Electrical Substations Area
of CIRCE, where she has gained her wide experience in IEC 61850 systems. It stands out her participation
in the standardized pilot project (Smart Substation) of Endesa, being in charge of the development of
software tools for sending, reading and interpretation of IEC 61850 communication protocols.
She has also participated in projects of communications programming between Electric Vehicle and fast
charging posts or test automation of the control and protection equipment in substations.
Yasmina Galve
Industrial Engineer in Electricity. University of Zaragoza
He works for CIRCE since 2009, currently as ICT Group Director of the Electrical Substations Area
of CIRCE, where he has gained his wide experience in IEC 61850 systems. In this field, he has accom-
plished significant actions, such as his collaboration in the technical committee of The E3 Group, for
the development of the common specification of Spanish electricity companies on the IEC 61850
standard; and the technical direction of the standardized pilot project (Smart Substation) of Endesa,
for the introduction of IEC 61850 in its current control systems designs.
He has also participated in comparative studies about the implantation of communication protocols
in the management systems of Electric Vehicle charging and other electrical networks.
Jesús Torres
Telecommunication Engineer. University of Zaragoza.
Previous editions
This course has been taken by staff from:
l E.P.R. (Central America TSO)
l E.S.E. (Peruvian DSO)
l Abengoa (Renewable energy Company)
l M.E.S.A. (Schneider group)
l Many electrical and engineering companies
l G.N.F. (Spanish DSO)
l Iberdrola (Spanish DSO)
l U.T.E. (Uruguayan TSO)
l C.A.E.S.S. (Salvadoran DSO)
l E.P.M. (Colombian Utility)Teaching
body
CursoLatam_IEC-61850-Triptico_ENG 31/03/2016 9:59 Página 2
The IEC 61850 standardCOMMUNICATION FOR SUBSTATION AUTOMATION SYSTEMS,
SMART GRID, ELECTRIC VEHICLE AND RENEWABLE ENERGY
THE IEC 61850 STANDARD. Communication for Substation Automation Systems, Smart Grid, Electric Vehicle and renewable energy
www.fc i rce .es
CIRCE Foundation · CIRCE Building
Campus Río Ebro. Mariano Esquillor Gómez, 15
50018 Zaragoza (Spain)
Tel. +34 976 761863 · Fax +34 976 732078
Email. [email protected]
2
he ongoing evolution of the electrical in-
dustry can be proved, nowadays, by the de-
ployment of Smart Grids technologies,
aiming at a more efficient and sustainable use of
energy. These goals require the upgrade of the net-
work, enhancing the ICT capabilities of the grid, in
order to support a bidirectional data exchange, an
indispensable basis for the interaction demanded
by the new services. This approach leads to, for
some years now and as an extended convention,
TCP/IP solutions. The IEC 61850 standard, a con-
sequence of this roadmap, is designed to provide a
framework for the implementation of these deve-
lopments in the local networks of electrical substa-
tions. Its wide scope and advantages resulted, as
well, in its extension to Smart Grid and renewable
energy scenarios or Electric Vehicle charge control.
tools leading to captive clients, entail integration
designs (convertors, multiplexers, etc.) in facilities
where devices from different vendors are installed.
Therefore, the deployment of IEC 61850 shall bring
along an important reduction of cost for the electrical
companies, regarding deployment, materials and
maintenance in their facilities. Besides, the installa-
tion of the associated LAN communications paves
the way for a whole new market of services, given the
possibilities of ICT solutions. Integrated remote
access or advanced reaction to faults are more a re-
ality than ever. Beyond Substation Automation
Systems, the standard extends its focus to respond
to the demands of the new electrical scenarios,
such as renewable energies or Smart Grid techno-
logies: inter-center communication, control of dis-
tributed resources or vehicle charging systems.
The demand for IEC 61850 qualified professionals
shall increase from now on, for the deployment of
these technologies in the electrical systems. All re-
levant suppliers already include the IEC 61850
communication protocols and configuration capa-
bilities in their main products. The international im-
pulse of the standard is, unquestionably, increasing
and destined to become the market leader. For
example, in 2013, 31% of SAS were estimated as im-
plemented by means of IEC 61850, with potential
to overcome every other alternative1, and ABB, in
2014, had already distributed worldwide more than
3000 IEC 61850 SAS2.
O N L I N E C O U R S E
T
IEC 61850 makes it possible to deploy TCP/IP solutions in Substation Automation Systems, Smart Grid, renewable energy and ElectricVehicle scenarios.
All relevant suppliers of the electricalsector already include IEC 61850communication protocols and configuration capabilities in their main products.
www.fcirce.es/courseIEC61850
IEC 61850 comes up as a standardized, complete
proposal (modeling, configuration, communication)
to assure the interoperability amongst different ven-
dors. Currently, Substation Automation Systems are
based on proprietary solutions, which are supplier-
dependent and, apart from specific knowledge and
1.- Market Trends Digest, Newton Evans Resarch Company.
2.- ABB Relion® webinar.
5th Edition
New beginning date: 18th April 2016
CursoLatam_IEC-61850-Triptico_ENG 31/03/2016 9:59 Página 1
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IEC 61850 Standard Control and protection communication systems for Electrical Substations,
Smart Grid, Electric Vehicle and Renewable Energy
It is possible to register for the course either by (1) filling this form and sending it via email to [email protected] under the subject “Registration course IEC61850 standard”, or (2) via online at
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