Accelerating Grid Modernization More information available on SGIP.org p: | e: Accelerate Adoption of an Interoperable Smart Grid Smart Grid Design & Implementation March 28, 2014 University of Florida, Gainesville, FL

Accelerating Grid Modernization More information available on SGIP.org p: | e: Why Achieve Interoperability Reducing the distance to integrate – Reduces installation and integration costs – Creates well-defined points in a system for new applications – Enables substitution of automated components – Provides an upgrade path that preserves system operation – Increases opportunity for multiple vendors to compete – Allows for easier integration of new capabilities & features

Accelerating Grid Modernization More information available on SGIP.org p: | e: The modernized electrical power grid is expanding SGIP eases Smart Grid growing pains by – Comprehending customers’ requirements – Engaging all stakeholders to identify and solve critical problems – Encouraging practical implementations – Overseeing the path to interoperability through Smart Grid standards for hardware, software and systems Enabling Interoperable Solutions

Accelerating Grid Modernization More information available on SGIP.org p: | e: Smart Grid Interoperability Panel orchestrates the work behind power grid interoperability

Accelerating Grid Modernization More information available on SGIP.org p: | e: Optimizes resources and time Avoids proprietary vendor lock-in Helps build technology roadmaps Simplifies decision making SGIP Reduces Risks and Costs SGIP is a collaborative, transparent, and trusted forum to share standards information and practical, hands-on knowledge about deployments from industry experts.

Accelerating Grid Modernization More information available on SGIP.org p: | e: SGIP Members Electric Utilities – Investor Owned Utilities, Rural Electric Cooperatives, Municipal – Renewable Power, Transmission System Operators, Retail, Financial Market Manufacturers – Appliance, Industrial, Vehicle, Power Equipment, Communications, Information Technology, Integrators Associations and Standards Development Orgs (SDOs) Governments & Regulators – Federal, State and municipal/city agencies

Accelerating Grid Modernization More information available on SGIP.org p: | e: SGIP U.S. Government Members Federal Energy Regulatory Commission (FERC) Nuclear Regulatory Commission (NRC) National Institute of Standards and Technology (NIST) Department of Energy (DOE) – Lawrence Berkeley National Laboratory (LBNL) – National Renewable Energy Laboratory (NREL) – Oak Ridge National Laboratory (ORNL) – Pacific Northwest National Laboratory (PNNL) – Sandia National Laboratories (SNL)

Accelerating Grid Modernization More information available on SGIP.org p: | e: SGIP Academic Members California State University – Chico – College of Engineering, Computer Science & Construction Carnegie Mellon University University of Illinois – Coordinated Science Laboratory University of Texas – El Paso – Regional Cyber & Energy Security (RCES) Center University of Tokyo Power Systems Engineering Research Center (PSERC)

Accelerating Grid Modernization More information available on SGIP.org p: | e: SGIP International Liaisons Liaison Type Organization Effective Date LoI - IntlKorea Smart Grid Standardization Forum (KSGSF)July 2011 LoC – IntlEuropean Union Smart Grid Coordination Group (SG-CG)Mar 2014 LoI – IntlJapan Smart Community Alliance (JSCA)Mar 2012 LoI – IntlEcuadorian Energy National Control Centre (CENACE)Jul 2012 LoI – IntlColombia lnteligente lniciative (CII) and ICONTECOct 2012 MoUNational Institute of Metrology, Quality and Technology of Brazil (Inmetro) Nov 2013

Accelerating Grid Modernization More information available on SGIP.org p: | e: SGIP Member Groups Activities

Accelerating Grid Modernization More information available on SGIP.org p: | e: Work Products Membership Domain Expert Working Groups (DEWGs) Priority Action Plans (PAPs) Standing Member Committees Standing Member Committees Architecture Cybersecurity Implementation Methods Testing & Certification Building to Grid Home to Grid Industry to Grid Business & Policy Vehicle to Grid Distributed Renewables, Generation & Storage Distributed Renewables, Generation & Storage Wireless Comm - 02 Energy Storage Interconnect - 07 Distribution Grid Mgmt - 08 Standard DR & DER Signals - 09 Map IEEE 1815 to IEC Wind Plant Comm - 16 Power Line Comm - 15 Facility Smart Grid Info Std - 17 Wholesale Demand Response - 19 Green Button ESPI Evolution - 20 EV Fueling Submetering - 22 Weather Info - 21 Conceptual Models & Roadmaps Requirements Use Cases Whitepapers Standards Evaluations Catalog of Standards Transmission & Distribution SGIP Member Groups

Accelerating Grid Modernization More information available on SGIP.org p: | e: Recent SGIP Publications GroupTitleDate Home to Grid (H2G) Broadcast-based H2G Communication Solutions A simple method to deliver energy management data from an energy service provider to consumer products Implementation Methods (SGIMC) Case Study: Implementing the Common Information Model (CIM) at DTE Energy The value of standards based integration using an Enterprise Semantic Model and supporting architectural concepts such as the Enterprise Service Bus (ESB) Cybersecurity (SGCC) User’s Guide to the Guidelines for Smart Grid Cyber Security (NISTIR 7628 Vol. 1 – Aug 2010) Helps utilities apply the cybersecurity guidance and leverages the DOE’s Electricity Subsector Cybersecurity Risk Management Process (RMP)

Accelerating Grid Modernization More information available on SGIP.org p: | e: Upcoming Committee Publications GroupTitleDate SGIMC Case Study : How San Bernard Electric Coop Used MultiSpeak to Integrate its Customer Information System and their Outage Management System SGCC Architecture Subgroup “Defense in Depth and Breadth and the Smart Grid” White Paper SGCC Cloud Computing Subgroup “Cloud Computing Considerations in the Smart Grid — Assessing and Implementing Cloud Computing Initiatives that Potentially Impact the Smart Grid” White Paper

Accelerating Grid Modernization More information available on SGIP.org p: | e: Upcoming DEWG Publications GroupTitleDate DRGS - Subgroup B “Categorizing Use Cases in Hierarchical DER Systems” White Paper: Enhance the interoperability of Distributed Energy Resource information exchanges in the Smart Grid. Includes DER hierarchical architecture, variations in DER configurations, and DER functions; process for developing information exchange requirements and object models DRGS - Subgroup C “Microgrid Control and Operation Use Cases” White Paper: Complete Functional Use Cases (10) in March; all ten to be summarized in white paper in April

Accelerating Grid Modernization More information available on SGIP.org p: | e: Upcoming DEWG Publications GroupTitleDate H2G “Barriers to Responsive Appliances at Scale” White Paper B2G, H2G “Transactive Energy for Residential Applications” White Paper Transactive Energy (TE) combines market forces and control techniques to achieve grid balance in a retail TE environment, where renewable energy resource outputs can change quickly and unpredictably with the weather B2G-I2G Joint “Electrical Storage vs. Thermo Storage” White Paper

Accelerating Grid Modernization More information available on SGIP.org p: | e: SMART GRID ARCHITECTURE COMMITTEE

Accelerating Grid Modernization More information available on SGIP.org p: | e: Responsible for creating and refining a conceptual reference model, which provides a high-level, overarching perspective of the characteristics, uses, interfaces, requirements and standards needed to enable the Smart Grid Addresses use cases that require interoperable communications as well as proper configuration and access through several ownership and management boundaries Smart Grid Architecture Committee (SGAC)

Accelerating Grid Modernization More information available on SGIP.org p: | e: Addressing several challenges – Migrating the existing system-engineering actor/role model to services – Developing a phased architectural approach that creates building blocks and data models – Building industrial profile & process to address emerging Smart Grid/Grid Modernization challenges such as integrating electric vehicles, renewable energy, microgrids, and Transactive Energy Smart Grid Architecture Committee (SGAC)

Accelerating Grid Modernization More information available on SGIP.org p: | e: Transactive Energy Framework was launched by GridWise® Architecture Council (GWAC) in early November at SGIP Fall Conference – SGAC has started its own working party on Transactive Energy to examine the issues across all the domains – SGAC has contributed to the GWAC Framework, especially to the Architecture, Cyberphysical Systems sections of the paper Coordinating architectures with European Union – EU M490 Methodology & Interoperability Work Packages Smart Grid Architecture Committee (SGAC) Activities

Accelerating Grid Modernization More information available on SGIP.org p: | e: SMART GRID CYBERSECURITY COMMITTEE

Accelerating Grid Modernization More information available on SGIP.org p: | e: Subgroups SGCC Architecture SGCC Cloud Computing SGCC High Level Requirements SGCC NISTIR 7628 User’s Guide SGCC Privacy SGCC Standards Smart Grid Cybersecurity Committee (SGCC)

Accelerating Grid Modernization More information available on SGIP.org p: | e: Completed User’s Guide to the Smart Grid Cybersecurity Guidelines (NISTIR ) Developing Privacy Awareness Questionnaire Developing Risk Management Case Study Completed mapping of Critical Infrastructure Protection (CIP) v5 to NIST IR 7628 (Guidelines to Smart Guide for Cybersecurity) Smart Grid Cybersecurity Committee (SGCC) Activities

Accelerating Grid Modernization More information available on SGIP.org p: | e: SMART GRID IMPLEMENTATION METHODS COMMITTEE

Accelerating Grid Modernization More information available on SGIP.org p: | e: Smart Grid Implementation Methods Committee (SGIMC) Interoperability in Practice – Implementation of standards Lessons learned and best practices Business case Barriers and challenges – Implementer Community Forum for implementers to share experiences – Feedback loop Pass along issues to DEWGS, Technical Committee, SDOs, User’s Groups and Alliances

Accelerating Grid Modernization More information available on SGIP.org p: | e: Smart Grid Implementation Methods Committee (SGIMC) Developing a clearinghouse and forum for real world experiences in smart grid deployment Choosing standards or application areas as topics for case studies for 2014: o Green Button o Smart Energy Profile 2.0 o AMI o Distribution Automation o Substation (IEC 61850) o Demand response o Cybersecurity o Integration of distributed generation

Accelerating Grid Modernization More information available on SGIP.org p: | e: Smart Grid Implementation Methods Committee (SGIMC) The first Interoperability Implementation Experience Case Study Implementing the Common Information Model at DTE Energy Published Jan. 2014

Accelerating Grid Modernization More information available on SGIP.org p: | e: SMART GRID TESTING AND CERTIFICATION COMMITTEE

Accelerating Grid Modernization More information available on SGIP.org p: | e: Testing and certification expected to play a key role in the coming years to help further Smart Grid interoperability – Accelerating the development and implementation of interoperable products throughout the smart grid domains – Identifying testing needs and priorities, particularly from the perspective of utilities – New test programs will ramp up to support the adoption and implementation of new technologies Smart Grid Testing & Certification Committee (SGTCC)

Accelerating Grid Modernization More information available on SGIP.org p: | e: Smart Grid Testing & Certification Committee (SGTCC) Deliverbles Interoperability Process Reference Manual (IPRM) v2 IPRM Frequently Asked Questions (FAQs) Interoperability Testing & Certification Authorities (ITCA) Development Guide and FAQs White Paper on Importance and Value of Testing & Certification for the Smart Grid Testing & Certification Landscape Report Testing & Certification Framework Development Guide

Accelerating Grid Modernization More information available on SGIP.org p: | e: DOMAIN EXPERT WORKING GROUPS (DEWGs)

Accelerating Grid Modernization More information available on SGIP.org p: | e: Building to Grid (B2G)Industry to Grid (I2G) Home to Grid (H2G)Vehicle to Grid (V2G) Business and Policy (BnP)Transmission and Distribution (TnD) Distributed Renewables, Generation & Storage (DRGS) Domain Expert Working Groups

Accelerating Grid Modernization More information available on SGIP.org p: | e: Provide the strategic domain perspective on the Smart Grid Interoperability Prepare White Papers, Use Case Scenarios to identify issues and gaps in standards, guidelines and testing Propose Priority Action Plans to address gaps & issues related to interoperability Domain Expert Working Groups

Accelerating Grid Modernization More information available on SGIP.org p: | e: Building to Grid (B2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Scope: Commercial building interaction with the electric grid, including the energy service provider as well as other grid-side service partners. Vision: Enable commercial buildings to participate in energy markets and perform effective energy conservation and management. More broadly, to identify and enable every role that the commercial building can play in the future smart grid to better the energy future of the US. Building-to-Grid (B2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Deliverables/Work Works closely with Industry to Grid (I2G) in Joint Work Group on several topics – Preparing Electrical Storage vs. Thermo Storage white paper –expected completion early 2014 – Preparing white paper-expected completion early 2014: “Transactive Energy Retail Applications” – Plans to develop report on Energy Ecosystem and Environment intertwine with Smart Grid Building-to-Grid (B2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Industry-to-Grid (I2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Scope: Interoperability and interaction between the electric grid and industrial facilities, including electric power generation Vision: Energy transfer occurs between industrial facilities and the electric grid, in various manifestations, to meet fluctuating demand at predictable quality and price, while acknowledging variable supplier delivery capability and regulatory requirements, and facilitating optimized energy conservation. Industry-to-Grid (I2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Distributed Renewables, Generation & Storage (DRGS) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Identify and define standards and interoperability issues and gaps related to Smart Grid integration of distributed renewable/clean energy generators and electric storage Enable high penetrations of distributed renewable/clean generator and storage devices while also enhancing rather than degrading grid stability, resiliency, power quality, and safety Distributed Renewables, Generation & Storage (DRGS) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Initial sets of gaps and issues addressed, including Information exchange requirements for: – Operation of DRGS devices within grids, microgrids, DC microgrids and DC circuits – Interoperation of high-bandwidth inverter-based devices with devices having high intrinsic inertia with distribution automation devices having discrete states – Coordination of DRGS devices with automated circuit protection devices Distributed Renewables, Generation & Storage (DRGS) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Initial sets of gaps and issues addressed – Information model parameters for aggregated response – Requirements for harmonizing, unifying information model standards and approaches for multi-purposed systems – Requirements for harmonizing and unifying information model standards and approaches for DRGS – Requirements for International duel-logo IEC/IEEE Distributed Resource Interconnection Standard – Strategy for test and certification of large multi-MW to high-MW inverter-based DRGS plants Distributed Renewables, Generation & Storage (DRGS) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Subgroups Subgroup A: Standards Roadmap Subgroup B: Use Cases, Information Exchange, and Object Models Subgroup C: Microgrids, Hierarchical Distributed Control Subgroup D: Conformity and Interoperability Test and Certification Subgroup E: Regulatory and Market Issues Subgroup F: Distributed Energy Resources, Interconnection Standards Distributed Renewables, Generation & Storage (DRGS) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Deliverables/Current Work: DRGS Subgroup B: White Paper: “Resiliency and Security Recommendations for Distributed Energy Resources (DER) Cyber-Physical Systems” is being reviewed DRGS Subgroup B: White Paper “Distributed Energy Resources (DER): Hierarchical Classification of Use Cases and the Process for Developing Information Exchange Requirements and Object Models” near completion Distributed Renewables, Generation & Storage (DRGS) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: DRGS-Subgroup C: Coordinating with U.S. DOE, DOD – Define use cases based on Microgrid demonstration projects – Developing architectures and models for information exchange DRGS-Subgroup D: Coordinating development of test procedures and test plans for grid interactive Smart Inverter functions DRGS-Subgroup E: White Paper on DER Regulatory and Market issues Distributed Renewables, Generation & Storage (DRGS) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Home-to-Grid (H2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Scope Applications and communications linking energy service providers (utilities and other third-party providers) with customer equipment in residential buildings via the electric grid and associated networks. Customer equipment may include home appliances, consumer electronics, plug-in electric vehicles (PEVs), plug-in hybrid electric vehicles (PHEVs), and local power sources (such as photovoltaics). Home-to-Grid (H2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: H2G is investigating communications between utilities and home devices to facilitate demand response programs that implement energy management. – Adapting home appliances for Load Following and Frequency Regulation (tools for Grid stability) – Investigating impact of micro inverters on Residential Power Systems  Investigating the impact of Transactive Energy on residential devices and findings may result in white paper or use case scenarios Home-to-Grid (H2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Developing white paper: “Economic Value of Demand Response in the Electric Energy Market” Investigating broadcast communication of Demand Response prices and events to appliances/products Home-to-Grid (H2G) DEWG Activities

Accelerating Grid Modernization More information available on SGIP.org p: | e: Transmission & Distribution (TnD) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Scope – Utility transmission and distribution operations as well as interactions with other producer/users on the grid. Vision – Create unprecedented robustness and resilience to grid instabilities and disturbances for improved reliability. Improve power quality to meet customer needs and enable ready access for distributed generators to the grid Transmission & Distribution (TnD) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Ongoing development of Transmission Bus Load Model – A model for an interface between transmission and distribution systems – Facilitates communications between the transmission Energy Management System (EMS) and the Distribution Management System (DMS) – Scenario 14 – abnormal states of TBLM following Very Large Scale Events (like Superstorm Sandy) Transmission & Distribution (TnD) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Vehicle-to-Grid (V2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Scope – Plug-in electric vehicle (PEV) interaction with the electric grid, including discharging as well as charging and customer-utility interactions Vision – Create the infrastructure to make plugin vehicles a reality, including ability to charge at different locations and billing one account, using the PEV as an energy storage device for DR – Provide support for customer-utility interactions for account setup, diagnostics and report generation Vehicle-to-Grid (V2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Mission – Clarify PEV business objectives and prioritize corresponding PEV-grid interactions. – Identify the service interfaces and standards needed (syntax and semantics of information transfer, service interface protocols, cross-cutting issues, business and policy level) Vehicle-to-Grid (V2G) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Business & Policy (BnP) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: Assist business decision-makers and regulators in implementing smart grid policies sensitive to interoperability – Green Button initiative Engaged in discussions, education and outreach with utility regulatory commissioners & staff – Distributed Generation and Utilities Business Model – Differing State renewable portfolio standards – Interoperable Crew Management Systems for Storm Outage Restoration Mutual Aid Assistance scenarios Business & Policy (BnP) DEWG

Accelerating Grid Modernization More information available on SGIP.org p: | e: WORKING GROUPS

Accelerating Grid Modernization More information available on SGIP.org p: | e: Enhance the immunity of Smart Grid devices and systems to the detrimental effects of natural and man-made electromagnetic interference Address these electromagnetic compatibility (EMC) issues and develop recommendations for standards and testing ElectroMagnetic Interoperability Issues Working Group (EIIWG)

Accelerating Grid Modernization More information available on SGIP.org p: | e: Evaluates the intersection of gas and electric system interoperability standards Assists the gas industry to develop and deploy technologies to: – Enhance safety and efficiency of the gas delivery network – Facilitate the migration to natural gas as a primary fuel for electric generation – Address the interactions between the gas and electric grids – Integrate the gas delivery grid with electric, water, telecom, and heating grids Gas Technologies Working Group (GTWG)

Accelerating Grid Modernization More information available on SGIP.org p: | e: Proposed project in development for pressure enabled sensors for gas meters Two Pronged Approach – Focus on the distribution automation use case of pressure monitoring – Emphasis on cybersecurity in the development of this application Gas Technologies Working Group (GTWG) Activities

Accelerating Grid Modernization More information available on SGIP.org p: | e: PRIORITY ACTION PLANS

Accelerating Grid Modernization More information available on SGIP.org p: | e: PAPs arise from the analysis of the applicability of standards to the Use Cases of the Smart Grid PAPs include identified experts from related Standard Development Organizations (SDOs) Currently there are 13 active PAPs and 6-8 topics in the pipeline for creation of new PAPs Each PAP is at different point in the review cycle Priority Action Plans (PAPs)

Accelerating Grid Modernization More information available on SGIP.org p: | e:

Accelerating Grid Modernization More information available on SGIP.org p: | e: Finalizing publication of Guidelines and examples for wireless communication for Smart Grid applications (NIST IR 7761 v2) Provides assessment of the many types of wireless technologies used in different power grid environments Identifies the suitable capabilities and weaknesses for plausible conditions of operations for wireless technologies operating in both licensed and unlicensed bands PAP-02: Wireless Communications

Accelerating Grid Modernization More information available on SGIP.org p: | e: Developed requirements resulting in new documents: – IEEE Recommended practice for grid-interactive DER – IEC : Information Model for Advanced DER inverter functions – UL 1741 Certification Requirement Decision: Certification tests for Grid Interactive DER and Special Purpose DER With DRGS DEWG, provided baseline work to IEEE – Draft of IEEE 1547a – New PAR P1547.1a, Voltage Reg, Voltage/Freq. ride-through Federal Energy Regulatory Commission (FERC) & California PUC initiate new rulemaking process to consider requiring inclusion of new functions PAP-07: DER/Electric Storage Interconnection & Object Model Standard

Accelerating Grid Modernization More information available on SGIP.org p: | e: Develop a common semantic model for standard Demand Response signals to make the information conveyed more consistent as a signal flows from grid management through aggregators to customers and within premises networks Define framework and common terminology for price, grid safety or integrity signals, DER support, etc. Cooperate with IEC TC57, OASIS, NAESB and AMI-ENT PAP-09: Standard DR and DER Signals

Accelerating Grid Modernization More information available on SGIP.org p: | e: 300 comments received on first IEEE ballot – Almost all comments have been addressed – Balloting is targeted for September 2013 Excellent example of SGIP collaboration and acceleration of global harmonization with IEEE and IEC Anticipated output is IEC will approved a dual logo standard (IEC TC 10, Fluids for Electrotechnical Applications, and IEEE ) PAP-12: Mapping IEEE 1815 (DNP3) to IEC 61850

Accelerating Grid Modernization More information available on SGIP.org p: | e: Developing an interoperable profile containing common features for home appliance application Provides guidelines for the implementation of coexistence for low frequency narrowband power line communication standards and broadband power line Collaborating with ITU-T and IEEE on security issues and guidelines for implementation Addressed the issue from two perspectives: – Broadband-PLC (frequency bands over 1.8 MHz) – Narrowband-PLC (frequency bands below 500 kHz) PAP-15: Power Line Communications

Accelerating Grid Modernization More information available on SGIP.org p: | e: Common data format so utility Customers can have access to their own energy usage information through their utility or retail Energy Service Provider Interface (ESPI) PAP-20: Green Button ESPI Evolution

Accelerating Grid Modernization More information available on SGIP.org p: | e: PAP-20: Green Button ESPI Evolution SGCC

Accelerating Grid Modernization More information available on SGIP.org p: | e: Green Button allows consumers to have easy access to their own energy usage NAESB completed and ratified REQ18/REQ19; UCAIug developed Green Button Test Plan – New tool for testing “Green Button Download My Data” UCAIug to conduct live testing for Green Button Download My Data based on SGIP SGTCC’s IPRM NAESB developing update to Green Button standard based on issues and lessons conveyed from UCAIug PAP-20: Green Button ESPI Evolution

Accelerating Grid Modernization More information available on SGIP.org p: | e: Identify Use Cases (UCs) that illustrate the benefits of bi-directional weather data exchange Coordinate development of UCs with inputs from a wide range of industries Produce a set of information requirements designed to facilitate the harmonization of information models and exchange models PAP-21: Weather Information

Accelerating Grid Modernization More information available on SGIP.org p: | e: Separate metering of Personal Electric Vehicle loads Tracking of PEV electrical consumption for credits Utility monitoring PEV loads for predictive analysis Requirements and standards needed to specify: Accuracy, performance, security Utility revenue grade billing data & 3 rd party billing Data formats and certification PAP-22: EV Fueling Submetering Requirements

Accelerating Grid Modernization More information available on SGIP.org p: | e: Many Utility Functions Benefit from SGIP Membership C-Level Executives Operations Planning & Management Engineering Procurement Marketing Customer Service ICT Regulatory Relations Program Management

Accelerating Grid Modernization More information available on SGIP.org p: | e: For More Information Contact: Patrick Gannon: Visit Talk to us today!