ieee_2030 smart grid
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Disclaimer
The information contained here does not necessarily
expresses the final opinion of the IEEE P2030 since
this is still an working in progress. But it providesthe basis for ongoing standards development
discussions.
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IEEE P2030 Smart Grid Key Highlights
The IEEE P2030 is a Standard Guide for Smart GridInteroperability.
It addresses the basic Smart Grid definitions, frameworks,
challenges and three different architectural perspectives
(Power & Energy, Communications and IT) with
interoperability tables and charts.
The architectures adopts a methodic end-to-end and system
engineering approach to address the secure, modular andscalable Smart Grid interfaces and building blocks.
IEEE P2030 has been voted and approved for ballot in the
last General Plenary meeting (New Orleans, Feb 2011).
The IEEE 2030 Series of standards will address more specific
technologies and implementation of Smart Grid system (e.g.
P2030.1 Electric Vehicle, P2030.2 Storage Energy Systems).
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Source: IEEE
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IEEE P2030 Smart Grid Interoperability TimelineIEEE P2030 Smart Grid Interoperability TimelineIEEE P2030 Smart Grid Interoperability TimelineIEEE P2030 Smart Grid Interoperability Timeline
Almost DONE!
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IEEE P2030 Smart Grid
Generic Framework
Methodological Interoperability
Framework composed of: Three Interoperability
Architecture Perspectives
(IAP):
Communications
Technology (CT)
Information
Technology (IT)
IAPs Interoperability Tables
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Source: IEEE
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Using the System Engineering ApproachUsing the System Engineering ApproachUsing the System Engineering ApproachUsing the System Engineering Approach
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TwoTwoTwoTwo----Levels SG System ArchitectureLevels SG System ArchitectureLevels SG System ArchitectureLevels SG System Architecture
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The Smart Grid Foundational LayersThe Smart Grid Foundational LayersThe Smart Grid Foundational LayersThe Smart Grid Foundational Layers
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Key Attributes
1. Broadest, All Inclusive Architecture (providealternative paths).
2. Adopt a System Engineering Approach.
3. Define Key Actors and Critical Interfaces.4. Methodological and Well Documented Procedure.
5. Top Down Approach (System to Sub-System Level).
. , , .
(define demarcation points between entities/actors).
7. Use Technology Neutral Approach.
8. Dynamic and Evolving Architecture.
9. Covers the Whole Utility Smart Grid Spectrum.10. Useful to Stakeholders (utilities, vendors, SDOs, etc).
11. Seeks an International Perspective.
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Source: IEEE
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Important Smart Grid Design PrinciplesImportant Smart Grid Design PrinciplesImportant Smart Grid Design PrinciplesImportant Smart Grid Design Principles
Secure
Reliable
Scalable Open
-Recommended
Manageable
Modular
Future Proof
Interoperable
Characteristics
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The Smart Grid Building BlocksThe Smart Grid Building BlocksThe Smart Grid Building BlocksThe Smart Grid Building Blocks
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Source: IEEE
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IEEE P2030 Smart Grid CommunicationsIEEE P2030 Smart Grid CommunicationsIEEE P2030 Smart Grid CommunicationsIEEE P2030 Smart Grid Communications
Reference Architecture (SGReference Architecture (SGReference Architecture (SGReference Architecture (SG----CRA)CRA)CRA)CRA)
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Source: IEEE P2030
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SG Architecture Development Methodology
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Source: IEEE P2030
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IEEE P2030 Smart Grid Work: Architectures
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IEEE P2030 Smart Grid Work: Tables & Charts
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IEEE P2030
Appendix
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Source: IEEE
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IEEE P2030 Information Technology
Interoperability Architecture Perspective (IT-IAP)
Source: IEEE
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IEEE P2030
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Source: IEEE
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Example of Detailed Communications (CT) Interface Description
Source: IEEE
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IT Interfaces/Data Flows Description Table
Source: IEEE
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Power System Interfaces Types and Descriptions
Source: IEEE
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Sample Smart Grid Interface/ Application Mapping Table
Source: IEEE
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Typical Data Characteristics of Sample Applications
Source: IEEE
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