What is
IEC 61850 ??
• IEC 61850 is a global standard for “Communication
Networks and Systems in Substations”
• It specifies an expandable data model and services
• It does not block future development
of functions
• It specifies no protection or control functions
• It supports free allocation of
functions to devices
• It is open for different system
philosophies
• It provides the Substation
Configuration description Language (SCL)
• It supports comprehensive consistent
system definition and engineering
• It uses Ethernet and TCP/IP for
communication
• Provides the broad range of features
of mainstream communication
• It is open for future new communication concepts
History
• International Electrotechnical
Commission (IEC) is global
• Publishes international standards
for all electrical, electronic and related technologies.
• The IEC members are the national
standardization organizations i.e. not
individuals nor companies.
• Experts in the technical committees
represent their country i.e. not themselves or their employer
• IEEE and EPRI work under a similar charter in North
America
IEC
61850:“COMMUNICATION NETWORKS AND SYSTEMS IN SUBSTATIONS”
• IEC 61850 is the first really global
standard in the Electric Utility field
• Supported also in the ANSI/IEEE
world
• Some 60 experts from Europe and
North America have jointly developed the IEC v61850
• Includes the UCA 2.0 as a subset
• All 14 parts of the IEC 61850 were
published in 2004/2005
• Influences other electric areas
• Wind power plants, Hydro power,
Distributed Energy Resources.
• Implementation in progress by all major vendors
Objectives
for the IEC 61850
Reduce cost
from cradle to grave and into next generation:
• Interoperability
• IEDs from different vendors can
exchange and use information over a common communications media.
• The functionality in different
devices is however not necessarily the same. Therefore no interchangeability of
devices from different vendors!
• Engineering and configuration data
is portable between vendor tools
• Open IED description
• Reduces the engineering and
configuration
• IEDs capabilities are described in a
standardized way
• Proprietary functions, solutions,
and data are still available and Allowed
• Communication closer to Power
Apparatus
• Communication, data acquisition, and
control capabilities will be directly imbedded into the primary equipment
• Free configuration
• Free allocation of functions in
centralized or decentralized system configurations.
• Reduction of conventional wiring
• LAN instead of multiple copper wires
• Future proof
• Utility and Vendor investments shall
be long lived in spite of fast changing technology
• The standard is able to follow the
progress in communication technology as well as evolving system requirements.
Logical
Nodes
• Functions or equipment used in power
systems are represented in Logical Nodes, LN
• All information and functions in a
substation is structured in atomic units, the LNs
• Each LN provides a list of well
organized and named information Complex functions use a set of LN required to
represent the function
• Services enable the exchange of the
information in LNs between IEDs
• Example: the LN for a Circuit
Breaker has the generic name XCBR
• New logical nodes can, if required,
be created according rules defined in the standard
The
substation LAN
• IEC 61850 specifies only the
interface to the substation LAN
• The LAN itself is left to the system
integrator
• The Ethernet LAN is a subpart of the
station and needs engineering, configuration, supervision, and control as any
other subpart
• A network management system is
appropriate
• The LAN topology depends on a number
of constraints:
• Operational requirements for the
substation
• Size of the substation
• Reliability and availability
• The substation LAN as a whole will
likely be separated into a station bus and one or more process buses
• Experience from previous substation
communication architectures have shown that this is a sensible approach
Engineering
and Configuration
• Savings from efficient IED
engineering
• IEDs are engineered using
manufacturer specific IED configuration tools
• Configuration tools translate the
IED capabilities and configuration to the SCL (Substation Configuration
description Language)
• SCL enables information exchange
between IED configuration tools from different manufacturers
• SCL secures backwards compatibility
between different versions of IEDs and IED configuration tools
Migration
to IEC 61850
• Migration is technically possible as
• Replacement of station level devices
• Total or partial replacement of bay
level devices
• Total or partial replacement of
process level devices
• Extension with one or more bays
• Migration may not be profitable
• Two kinds of maintenance types in
mixed installations
• No functional benefits
• Consider to migrate the total substation!
• Station computers and gateways will
for long be compatible with current station bus protocols/interfaces
• Separation of communication and
operator functions will allow for mix of station bus protocols, e.g. IEC
61850-8-1 and LON
• Problems if the station bus is used
for station wide fast functions, e.g. interlocking, transfer between two buses may
take time
Migration
on Bay and Process levels
• Replacement of single IED
• Replace with plug compatible IED, if
possible an IEC 61850 compatible one
• Retrofit of bay
• Select an IEC 61850 compliant set of
IEDs, vendors will have IEC 61850 compliant IEDs with interfaces compliant to
today's
• Extension with new bay
• As for retrofit but consider also a
full process bus
• Retrofit of primary equipment or
transducer/actuator
• Same as retrofit or new bays
Conformance
Tests
• The conformance tests include
verification of the vendor provided information and tools, as for example
• The formal SCL description of the
IED in the ICD file, IED Configuration Description file
• The SCD, System Configuration
Description, file that describes the system used for the verification of the
IED.
• Conformance tests can be performed
by the vendor himself or by an independent test organization as KEMA
• Interoperability between products
from different vendors guaranteed by
• Quality Assurance program during
development, market introduction, and project execution
• Conformance tests as type test for the communication
capabilities
IEC
61850 – Benefits and Conclusions
• The standard for substation
automation!
• Higher degree of flexibility though
interoperability between IEDs from different vendors
• Taking full advantage of future
innovations within Substation Automation and communication technologies
• Promises cost reductions from design
to operation and maintenance!
• Substation architecture adapted to
your requirements
• Gives the opportunity to select ‘Best
value for money’
• Embraced by vendors and users equally!
9 comments:
Thanks for sharing the useful information.
power transformer suppliers in hyderabad
superb and Nice one thankyou. plese visit Distribution Transformers Manufacturers
superb and Nice one thankyou. plese visit Distribution Transformers Manufacturers
nice blog Neutral current transformer specification
Please share your email id sir .I had a doudt regarding CB , ISOLATOR and Earth Switch in One and a half cycle scheme of 400 KV system
Affinity Powers - We are the leading manufacturers, dealers and suppliers of diesel generator, genset across Chennai, Tamil Nadu, Pondicherry, Karnataka and Kerala
Generator Rentals in Chennai
Thanks for sharing this blog with us.
If anybody is looking for Busbar Processing Machine, can reach us.
Mot check
Post a Comment