SGCC Peer Connect: Smart Grid HAN Standards April 26, 2012
Today s Presenters John McDonald Director, Technical Strategy and Policy Development GE Digital Energy Robby Simpson, PhD System Architect GE Digital Energy Patty Durand Executive Director Smart Grid Consumer Collaborative
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Agenda 1. SGCC & Standards 2. Presentation by Robby Simpson: What is the Smart Grid HAN? (Bigger Picture) (Some) Key Initiatives HAN Standards and Technologies Potential Products and Applications 3. Takeaways & Q&A
SGCC & Standards Where do standards fit in? Leveraging SGCC s membership GE Digital Energy s Director of Technical Strategy and Policy Development John McDonald
Smart Grid Home Area Networks Name Background Robby Simpson, PhD System Architect - GE Digital Energy Member of the Board of Directors and Vice President of Smart Energy with the HomePlug Powerline Alliance Chair of the ZigBee Alliance Smart Energy Profile 2 working group Member of the Smart Grid Interoperability Panel (SGIP) Governing Board PhD, in Electrical and Computer Engineering from Georgia Institute of Technology in Atlanta, GA. B.S. in Computer Engineering from Clemson University in Clemson, SC.
Outline What is the Smart Grid HAN? (Bigger Picture) (Some) Key Initiatives HAN Standards and Technologies Potential Products and Applications Q&A 8
What is the Smart Grid HAN? (Bigger Picture)
System Architecture 10
Residential vs. Commercial and Industrial (C&I) Original focus has been on residential HAN Some debate on need for two protocols or one Transactive pricing and energy use often discussed for C&I Focus on protocols inside the HAN vs. to the HAN C&I already has some established technologies: BACnet LonWorks 11
(Some) Key Initiatives
Open Standards Now no longer largely debated, but has been in the past Many benefits, including: Multiple sources/suppliers Ease of integration (including internal) Prevents vendor lock-in Lessens local variation 13
Internet Protocol (IP) Technology that led to the explosion of the Internet Largely debated in the past in AMI, substation automation, and HAN Many benefits, including: Internetworking mixing various MAC/PHY technologies Availability of COS products Vast labor pool Advantage of hard-won wisdom (particularly in security) of Internet community Eases convergence 14
IP in the HAN PLC WiFi ZigBee IP Ethernet HomePlug 15
IEC Common Information Model (CIM) Common dictionary for Smart Grid semantics IEC 61968 / 61970 IEC TC57 Many benefits, including: Common model across smart grid Decoupled from underlying technologies allows flexibility for future technology changes Eases convergence 16
HAN Standards and Technologies
ZigBee Wireless Mesh Low power (gas meter, battery-powered thermostats) Low cost Lower speed (~150 kbps) IEEE 802.15.4 Traditionally a turn-key solution, also providing: ZigBee Stack (ZigBee PRO, ZigBee IP, ) meshing is hard Application Layer Profile (SEP 1.x, HA, ) Supported by ZigBee Alliance, with ~400 members and many vendors in all levels of the supply chain Large utility support, with approximately 40 million meters under contract 18
Wi-Fi Wireless Star Medium to high energy use Appears to still be more costly than ZigBee, especially given the economies of scale Higher speeds (10 54 Mbps) Suite of IEEE 802.11 technologies (a, b, g, n) Traditionally solely focused on MAC/PHY, running typical protocols and applications (such as IP and HTTP) Supported by Wi-Fi Alliance, with ~400 members and many vendors in all levels of the supply chain Enormous adoption in the consumer electronics space Some utility interest, though no meter support to my knowledge, for instance 19
HomePlug Powerline Communication Variety of technologies: HomePlug AV Higher cost Higher speed (~200 Mbps) IEEE 1901 HomePlug Green PHY Lower cost Lower to medium speed (~10 Mbps) Subset (and interoperable with) IEEE 1901 Traditionally solely focused on MAC/PHY, running typical protocols and applications (such as IP and HTTP) Supported by HomePlug Alliance, with ~60 members and many vendors in all levels of the supply chain Some adoption in the consumer electronics space Some utility interest, some meter deployment, interest in MDU issue Great interest from auto manufacturers for plug-in electric vehicles 20
Smart Energy Profile Application-layer profile a collection of standards where options and configurations are specified (for instance, prepayment support) with the intention of leading to interoperability and managing embedded device constraints Focus on communications related to efficiency, usage, price communication, demand response and load control, and messaging Range of backhaul (AMI, Internet, etc.) bandwidths and cost kept in mind during development Developing with several organizations including: ZigBee Alliance HomePlug Powerline Alliance Wi-Fi Alliance EPRI SunSpec Alliance SAE IETF UCAIug 40+ million meters with ZigBee and/or HomePlug currently under contract, from a variety of the major North American and international meter manufacturers Robust testing and certification program with logoing 21
Smart Energy Profile versions 1.0 (Publicly Released June 2008) Certified Products available today Designed only for ZigBee stack Support for Price Communication, Demand Response and Load Control, Messaging, and Metering (as well as security and basic information such as time) 1.1 (Publicly Released July 2011) Incremental enhancements to 1.0 including Prepayment and Billing Information For support of existing deployments and pilots *** Development on 1.x may continue after 2.0 is released *** 2.0 (In Development, Subject to Change) Wireless and Wired (Link Layer Agnostic) Designed for IP stack, RESTful HTTP Harmonization with IEC 61968 (CIM) and 61850 Continuing to add new features (PEV support, MDU support, etc.) 22
SEP 2.0 Key Documents and Dates Within ZigBee, specifications are not considered to be complete until there are Certified Products Market Requirements Document (MRD) - COMPLETE Technical Requirements Document (TRD) - COMPLETE 0.7 version of Application Specification (Interop-Ready) COMPLETE Interop Testing / Gating Begins - ~7 months 0.9 version of Application Specification (Certification-Ready) 30 days Certification Testing - ~2 months Final Specification (Certified Products) Done! 23
SEP 2.0 Current Status SEP 2.0 Application Specification (App Spec): Last ballot received ~4000 comments Several face-to-face meetings (typically once per month) Several interoperability events (typically once per month) Most, if not all, contentious items thought to be resolved CSEP established Joint testing and certification organization between HomePlug, Wi- Fi, ZigBee, and others 24
OpenADR C&I Application Still in early stages Little industry support (but growing) Original support primarily in California, LBNL, and Honeywell Focused on transactive energy use OpenADR 1.0 from LBNL OpenADR Alliance formed to create OpenADR 2.0 very recently 25
Green Button Batch Download Still in early stages, but moving quickly Based on NAESB ESPI standard White House initiative Provides access to bulk energy usage information In process of developing testing and certification plans Supported by new SGIP PAP 26
Potential Products and Applications
Device Types (from SEP 2.0) ESI (Energy Services Interface) can be integrated into utility meter (often the case) or standalone In-Premises Display PCT (Programmable Communicating Thermostat) Load Control Devices (Pool Pumps, Water Heaters, Appliances, Lighting, etc.) Plug-In Vehicles Inverters Dumb devices (Refrigerator Magnet, Glowing Orb, etc.) 28
(Some) Function Sets (from SEP 2.0) Pricing Communication Demand Response and Load Control Metering / Energy Usage Information Messaging Pre-Payment Confirmation Plug-In Electric Vehicles Distributed Energy Resources Billing Registration Firmware Download Basic, Time, Commissioning, Power Configuration, etc. 29
Takeaways & Questions
Thank you! You will receive a copy of the slides to the email you used to register. John McDonald Director, Technical Strategy and Policy Development GE Digital Energy johnd.mcdonald@ge.com Robby Simpson, PhD System Architect GE Digital Energy Robby.Simpson@GE.com Patty Durand Executive Director Smart Grid Consumer Collaborative patty.durand@smartgridcc.org
Backup Slides
Z-Wave Wireless Mesh Very similar to ZigBee, basically directly competing Low power (gas meter, battery-powered thermostats) Low cost Lower speed (~40 kbps) Traditionally a turn-key solution, also providing: Stack meshing is hard Application Layer Profile Largely supported by a single company (pseudo-open / pseudo-proprietary) Large presence in home automation Little to no support from utilities 33
SEP 2.0
Security Application layer security built around TLS May also have link layer security Think https Certificates Have agreed on a specific ECC cipher suite as the mandatory cipher suite for interoperability Have agreed on a specific RSA cipher suite as an optional cipher suite for interoperability 35
Application Transport HTTP the web protocol we all know and love Used to interact with resources in a RESTful manner 4 verbs: GET, PUT, POST, DELETE Driven by desire to have a long-lived protocol and a familiar protocol for consumer interactions 36
Name Resolution mdns Multicast DNS Familiar to many via Apple Bonjour Enable DNS names without the need for a centralized DNS server Used in conjunction with DNS-SD to provide device and service discovery 37
Device and Service Discovery DNS-SD, used in conjunction with mdns Service Discovery Types and Sub-Types Essentially just DNS TXT records Give me all smartenergy devices Give me all smartenergy metering devices Returns various information such as path 38
Application Payload Format Message format of the HTTP resources Still TBD, but likely EXI Efficient XML Interchange Tokenized XML W3C standard 39
Semantic Model CIM, the Common Information Model The what Metering, Pricing, etc. IEC standard (61968/61970) UML -> Schema -> Resources Exposed via RESTful model SEP 2.0 defines URI structure 40