1. September 2009
IEEE P2030 Smart Grid Interoperability Standards Development Kick-Off Meeting June 3-5, Hosted by INTEL, Corporation, Santa Clara, CA
IEEE Standard 2030 Guide for Smart Grid Interoperability of Energy Technology and Information Technology operation with the Electric Power System (EPS) and End-Use Applications and Loads
OVERVIEW
Bob Heile, ZigBee Alliance

2. IEEE P2030 – Working Group Officers
September 2009
IEEE P2030 – Working Group Officers
IEEE Project - P2030 Draft Guide for Smart Grid Interoperability of Energy Technology and Information Technology Operation With the Electric Power System (EPS), and End-Use Applications and Loads
Chair: Dick DeBlasio
Vice Chair: Tom Prevost
CO-Chairs: Bob Grow, Sam Sciacca,
Stefano Galli, Bob Heile
Secretary: Tom Basso
Bob Heile, ZigBee Alliance

3. Some Smart Grid Definitions
September 2009
Some Smart Grid Definitions
“an automated, widely distributed energy delivery network characterized by a two-way flow of electricity and information, capable of monitoring and responding to changes in everything from power plants to customer preferences to individual appliances.”
“a smart grid is the electricity delivery system (from point of generation to point of consumption) integrated with communications and information technology”
(Note: Other definitions may also be in the eyes of the beholder and multiple definitions may be a result of layers or sub-tiers of interoperability and end use applications but will have commonality once understood.)
Bob Heile, ZigBee Alliance

4. IEEE P2030 Guide to Interoperability Body of Smart Grid Standards
September 2009
IEEE P2030 Guide to Interoperability Body of Smart Grid Standards
Interoperability
Energy
Information
Communications
Energy
Information
Communications
Bridge of Discovery
Bob Heile, ZigBee Alliance

5. Rooftop Photovoltaics
September 2009
Grid Modernization
Today’s
Electricity …
Power park
Hydrogen Storage
Industrial DG
Tomorrow’s Choices …
Combined Heat and Power
Fuel Cell
e -
Wind Farms
Rooftop Photovoltaics
Remote Loads
Load as a resource
SMES
Smart Substation
Bob Heile, ZigBee Alliance

6. Interoperability Smart Grid Concepts
DeBlasio
<month year>
doc.: IEEE <doc#>
September 2009
Interoperability Smart Grid Concepts
Distribution System
Communications and Information Technology – Information Flow, Data Management,
Monitor & Control
Substations
DER Interconnection
Bulk Power
Combined Heat
& Power
Load Management
sensors
(Also, larger DER on transmission)
Systems Approach
Interconnection & Interfaces
Technical Standards
Advanced Technologies
Systems Integration
Transmission System EV
Bob Heile, ZigBee Alliance 6
<author>, <company>

7. September 2009
P2030 Scope and Purpose
Scope: This document provides guidelines for smart grid interoperability. This guide provides a knowledge base addressing terminology, characteristics, functional performance and evaluation criteria, and the application of engineering principles for smart grid interoperability of the electric power system with end use applications and loads. The guide discusses alternate approaches to good practices for the smart grid.
Purpose: This standard provides guidelines in understanding and defining smart grid interoperability of the electric power system with end-use applications and loads. Integration of energy technology and information and communications technology is necessary to achieve seamless operation for electric generation, delivery, and end-use benefits to permit two way power flow with communication and control. Interconnection and intra-facing frameworks and strategies with design definitions are addressed in this standard, providing guidance in expanding the current knowledge base. This expanded knowledge base is needed as a key element in grid architectural designs and operation to promote a more reliable and flexible electric power system.
Bob Heile, ZigBee Alliance

8. September 2009
P2030 Overall Goals
Provide guidelines in understanding and defining smart grid interoperability of the electric power system with end-use applications and loads
Focus on integration of energy technology and information and communications technology
Achieve seamless operation for electric generation, delivery, and end-use benefits to permit two way power flow with communication and control
Address interconnection and intra-facing frameworks and strategies with design definitions
Expand knowledge in grid architectural designs and operation to promote a more reliable and flexible electric power system
Stimulate the development of a Body of IEEE 2030 smart grid standards and or revise current standards applicable to smart grid body of standards.
Bob Heile, ZigBee Alliance

9. P2030 ORGANIZATION TASK FORCE 1: Power Engineering Technology
September 2009
TASK FORCE 1: Power Engineering Technology
Co-Leaders : Sam Sciacca, Tom Prevost
Recorder: Tom Basso
TASK FORCE 2: Information Technology
Co-Leaders : Bob Grow
Recorder: Mike Coddington
TASK FORCE 3: Communications Technology
Co-Leaders : Stefano Galli, Bob Heile
Recorder: Ben Kroposki
Bob Heile, ZigBee Alliance

10. September 2009
TF3 - Communications
TF3 is defining communication requirements between devices in the Smart Grid
Establish boundaries
Generation
Transmission
Distribution
Customer
Bob Heile, ZigBee Alliance

11. B A TF3 - Communications Who defines attributes of info? [TF1 or TF2]
September 2009
TF3 - Communications
Who defines attributes of info? [TF1 or TF2]
(Where, When, Who, What) A B
PHY/MAC
TF3 -How-
TF3 will be neutral to PHY/MAC standards used in the Smart Grid
TF3 will describe layers above PHY/MAC and below Layer 6
PHY/MAC standards are being developed by other groups
Interoperability of electric power systems with end use applications and loads should be maintained regardless of the PHY/MAC
Bob Heile, ZigBee Alliance

12. September 2009
TF3 - Communications
Discussion on PHY/MAC for Smart Grid Interoperability
TF3 will not DEFINE any new PHY/MAC standards
TFs may provide requirements to PHY/MAC SDOs through liaisons
Leave choice to designer to pick what is best for the application depending on geography, scalability, requirements, latency, etc.
Between any two points in the Smart Grid, data will be transported over many PHYs.
PHY/MAC – physical and medium access control
Bob Heile, ZigBee Alliance

13. TF3 - Communications
September 2009
Contentious items regarding PHY/MAC scope for further discussion:
Develop suitability matrix for various PHY/MACs
Develop a list of PHY/MAC link layers that can be used for devices interfacing to the Smart Grid [Issue: future undeveloped PHY/MACs not included]
Discuss features of various PHY/MACs that are currently used and will be recommended in the future for use in the Smart Grid [Issue: requires a technical procedure for comparing and analyzing]
Bob Heile, ZigBee Alliance

14. TF3 PROPOSED WORK PLAN
September 2009
Identify/adopt use cases with the goal of defining scope more clearly
Model the source (grid), its critical points, and the traffic it generates
Define/refine communication architecture
Identify functional technical requirements with the goal of supporting distributed monitoring and control and create a TR document
Standard identification and gap analysis
Draft a communications guideline to feed into P2030
Bob Heile, ZigBee Alliance

15. ORGANIZATION OF TF3 SUBGROUPS TO SUPPORT WORK PLAN
September 2009
ORGANIZATION OF TF3 SUBGROUPS TO SUPPORT WORK PLAN
Architecture
Claudio Lima; Kuor-Hsin Chang; Howard Choe; Brad Singletary; Jeff Tao; John Grosspietsch; Jim Reilly
Use cases
William Miller; Vincent Guillet
External standards
Glenn Emelko; Lee Smith; John Banting
Interface/Questions to TF1 and TF2
TF1-Adolfo Gutierrez; Mark Siira; TF2-TBD
Bob Heile, ZigBee Alliance

16. September 2009
Proposed Groups for Coordination (Critical dependencies which go both ways)
OPEN_SG
IEC SG3 activities pertinent to this project
NIST
IEC TC57
NASPInet
ZigBee
HomePlug
NEMA
P2030 TF1
P2030 TF2
IEEE Acquisition & Processing Subcommittee
Bob Heile, ZigBee Alliance

17. September 2009
Proposed Groups for Liaison (exchanging information only; no critical dependencies)
P1777
P1901
P802
ITU-T SG15 Q4 G.hn
IETF (with active participation)
Other related IEEE groups
Bob Heile, ZigBee Alliance

18. Proposed Groups to Track
September 2009
Proposed Groups to Track
Canarie (Canada)
Gridwise Alliance
LonMark International
KNX
Echonet (Japan)
BACnet (ASHRAE SSPC 135)
3GPP/3GPP2
ETSI M2M
Bob Heile, ZigBee Alliance

19. P2030-NEXT MEETING October 27-29, 2009, Westchester County, NY
September 2009
P2030-NEXT MEETING
October 27-29, 2009, Westchester County, NY
Hosted by IBM
Bob Heile, ZigBee Alliance

20. Proposed October Meeting Topics-TF3
September 2009
Proposed October Meeting Topics-TF3
Responses to Call for Contributions on Use Cases, Current SmartGrid Deployments, and Existing Communications Architectures
Briefing on what the NAPSI and NAPSInet network looks like
Possible guest speakers
Eric Gunther – NIST
Paul Myer – EPRI
Francis Cleveland
Invite utilities that actually have deployed Smart Grid activities on a large scale beyond just smart metering. Possible Targets—Excel, Duke, PG&E
Get background on Meter Data Management issues
Volume of data from distribution monitoring
Non essential data traffic – end use vs essential data traffic
DG on the grid
Communication issues
Presentation from the power side on these issues
Bob Heile, ZigBee Alliance

21. QUESTIONS?? Sign up to the reflectors Documents available on Mentor
September 2009
QUESTIONS??
Sign up to the reflectors
Documents available on Mentor
follow links on TF3 home page
Bob Heile, ZigBee Alliance