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HIS – Smart Grid

HIS – Smart Grid. Karen Bartleson, President, IEEE Standards Association. Highlight of Current Activities. Providing leadership in the development & deployment of smart grid technologies Acting as a catalyst for change & innovation across the smart grid ecosystem

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HIS – Smart Grid

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  1. HIS – Smart Grid Karen Bartleson, President, IEEE Standards Association

  2. Highlight of Current Activities • Providing leadership in the development & deployment of smart grid technologies • Acting as a catalyst for change & innovation across the smart grid ecosystem • Our activities support the full life cycle of standards--from concept or incubation to market acceptance & use • We are developing a pipeline of standards related activities • Smart grid technology research & education • Market implementation programs

  3. Highlight of Current Activities • Smart grid equipment standards are needed to handle information data management, communications & control • Need for a flexible smart grid system – interoperability, design & operational standards will allow near-term and long-term smart grid evolution • Development of a body of interoperability smart grid standards is essential for the smart grid to operate • IEEE is collaborating with global stakeholders to develop smart grid standards that will extend across the entire grid

  4. Strategic Direction • Engaging participants from around the world in pre-standardization discussions, standards development & market acceptance activities • Leveraging IEEE's global community of experts from the Power Engineering, Communications & Information Technology sectors • Collaborating with national & international organizations (IEC, SAE) • Developing & sharing research for smart grid in conferences & other venues around the world • Providing a venue where the best minds come together to innovate & work together to advance smart grid technology for the benefit of humanity

  5. Challenges • The cost of transitioning to "smarter" grids from existing grids, i.e. equipment and operational costs • Differences in existing grid architectures around the world • Important to ensure an open, collaborative environment where all experts can participate

  6. Next Steps / Actions • Facilitate development of standards & bringing them to market • Continue education on smart grid technologies & standards • Engage in collaboration opportunities • Ensure open innovation to support multi-faceted & integrated solutions to address modern energy delivery that is reliable, environmentally friendly, economically viable & secure

  7. Supplementary Slides

  8. Smart Grid –IEEE 2030 series • IEEE 2030-2011, IEEE Guide for Smart Grid Interoperability of Energy Technology and Information Technology Operation with the Electric Power System (EPS), and End- Use Applications and Loads • Electric Vehicles • P2030.1, Draft Guide for Electric-Sourced Transportation Infrastructure • MoU with SAE Society of Automotive Engineers for collaboration • IEEE P2030.100 Recommended Practice for Implementing an IEC 61850 Based Substation Communications, Protection, Monitoring and Control System • IEEE P2030.101 Guide for Designing a Time Synchronization System for Power Substations • IEEE P2030.2, Draft Guide for the Interoperability of Energy Storage Systems Integrated with the Electric Power Infrastructure • IEEE P2030.3, Draft Standard for Test Procedures for Electric Energy Storage Equipment and Systems for Electric Power Systems Applications • IEEE P2030.4 Guide for Control and Automation Installations Applied to the Electric Power Infrastructure

  9. Smart Grid - continued • IEEE P1909.1, Recommended Practice for Smart Grid Communication Equipment -Test methods and installation requirements • Metering • IEEE 1701, 1702, P1703 for Communication Protocols to Complement the Utility Industry End Device Data Tables for smart metering devices • IEEE P1377, Utility Industry End Device Data Tables • IEEE P1704, Utility Industry End Device Communications Module • IEEE P1705 Compliance Testing to Utility Industry Metering Communications Protocol Standards • IEEE P802.15.4g, Physical Layer for Low Data Rate Wireless Smart Metering Utility Networks

  10. Smart Grid - continued • Renewable Energy • IEEE 1547 series that provides a set of standards for interconnection of distributed resources including renewable resources such as wind and solar to the electric grid • IEEE PC57.159 “Guide on Transformers for Application in Distributed Photovoltaic (DPV) Power Generation Systems” and • IEEE P60076-16 “Standard Requirements for Wind Turbine Generator Transformers” • IEEE P1843 Recommended Practice for Generating Renewable Energy Using Plasma Gasification • IEEE P1595, Standard for Designating and Quantifying Green Energy Projects in the Electricity Sector

  11. IEEE 1547 series IEEE 1547-2003 - IEEE Standard for Interconnecting Distributed Resources with Electric Power Systems IEEE 1547.1-2005 - IEEE Standard Conformance Test Procedures for Equipment Interconnecting Distributed Resources with Electric Power Systems IEEE 1547.2-2008 - IEEE Application Guide for IEEE Std 1547(TM), IEEE Standard for Interconnecting Distributed Resources with Electric Power Systems IEEE 1547.3-2007 - IEEE Guide for Monitoring, Information Exchange, and Control of Distributed Resources Interconnected with Electric Power Systems IEEE 1547.4-2011 - IEEE Guide for Design, Operation, and Integration of Distributed Resource Island Systems with Electric Power Systems IEEE 1547.6-2011 - IEEE Recommended Practice for Interconnecting Distributed Resources with Electric Power Systems Distribution Secondary Networks IEEE P1547.7 Guide to Conducting Distribution Impact Studies for Distributed Resource Interconnection IEEE P1547.8 - Recommended Practice for Establishing Methods and Procedures that Provide Supplemental Support for Implementation Strategies for Expanded Use of IEEE Standard 1547

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