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Smart Grid TAG Consolidated White Paper Presentation

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1 802.24.1 Smart Grid TAG Consolidated White Paper Presentation
November 2014 doc.: IEEE /0541r0 November 2014 Smart Grid TAG Consolidated White Paper Presentation Date: Authors: Tim Godfrey, EPRI John Kenney, Toyota InfoTechnology Center

2 Note – this is a draft: work in progress…
Tim Godfrey, EPRI

3 IEEE-SA Smart Grid

4 November 2014 doc.: IEEE /0541r0 Smart Grid Smart Grid is defined as: Providing bidirectional communication of power quality, supply, and demand across the power grid to utilize electricity more dynamically resulting in increased energy efficiency and power grid reliability. This change is necessary to manage the increased variability caused by renewable resources, the increased peak demand created by energy intensive consumers such as electric vehicles, and to minimize the environmental impact of ever increasing aggregate demand for electrical power. Split into two. John Kenney, Toyota InfoTechnology Center

5 November 2014 doc.: IEEE /0541r0 IEEE 802 and Smart Grid IEEE 802 networking technologies bring the following advantages to Smart Grid communications: Enterprise grade security compatibility Huge ecosystem (billions of products, hundreds of manufacturers) Long-term (20 year), battery-powered operation Continued operation during line fault events when using wireless media Wide choice of products across the spectrum of power versus performance Ability to be implemented in resource-constrained devices Ongoing development of standards to address changing environment and technology Wireless standards that operate in a licensed and license-exempt spectrum Offers a rich set of data rate/range/latency tradeoffs Common upper layer interface to seamlessly integrate into existing IT systems John Kenney, Toyota InfoTechnology Center

6 The Smart Grid = Electric Grid + Intelligence
November 2014 doc.: IEEE /0541r0 The Smart Grid = Electric Grid + Intelligence Clarify the meaning of “intelligence” with a new bullet Remove or clean-up figure. Larger text. John Kenney, Toyota InfoTechnology Center

7 Key Standards for Integrated Grid Communications Networks
November 2014 doc.: IEEE /0541r0 IEEE IEEE LAN IEEE BASE-X WAN IEEE IEEE IEEE (Mesh Topology) FAN IEEE : (SUN, LECIM, TVWS) IEEE ah, af PEV to “PHEV” Fix background/master page Merge FAN and NAN into FAN/NAN NAN IEEE IEEE Devices John Kenney, Toyota InfoTechnology Center

8 Examples of utility communications protocols
November 2014 Examples of utility communications protocols doc.: IEEE /0541r0 Application Layer Metering IEC CIM, ANSI C12.22, DLMS/COSEM,… SCADA IEC 61850, 60870 DNP3/IP, Modbus/TCP,… DNS, NTP, IPfix/Netflow, SSH RADIUS, AAA, LDAP, SNMP,… (RFC 6272 IP in Smart Grid) Web Services, EXI, SOAP, RestFul,HTTPS/CoAP Transport Layer TCP Security (DTLS/TLS) Network Layer IPv6/IPv4 Addressing, Routing, Multicast, QoS, Security IPv6 RPL Data Link Layer Mgmt 802.1x / EAP-TLS & IEEE i based Access Control IPv6 over PPP (RFC 5072) LLC KMP IPv6 over Ethernet (RFC 2464) IP or Ethernet Convergence SubL. 6LoWPAN (RFC 6282) M A C IEEE Wi-Fi IEEE 802.3 Ethernet IEEE WiMAX IEEE WRAN 2G, 3G, LTE Cellular Remove UDP from TCP/UDP layer Change IIEEE to IEEE. Add EXI/ HTTPS/ CoAP are not app layer themselves. Move App layer up and put these in below Is EAP-TLS above IP? Move 2G/3G/Cellular out to right, and bypass 802.1x layer. Split 6lowpan to show Move Network Functionality bottom line at bottom of IP layer IEEE e MAC enhancements IEEE including FHSS IEEE frame format Physical Layer IEEE g 2.4GHz, 915, 868MHz DSSS, FSK, OFDM IEEE NB-PLC OFDM IEEE Wi-Fi 2.4, 5 GHz, Sub-GHz IEEE 802.3 Ethernet UTP, FO IEEE WiMAX 1.x - 3.x GHz IEEE TV White Space 2G, 3G, LTE Cellular John Kenney, Toyota InfoTechnology Center

9 SG Network Architecture
November 2014 doc.: IEEE /0541r0 SG Network Architecture High level example of an AMI system Detailed View: Put detailed diagram into a backup section – only used by those who are have the background. John Kenney, Toyota InfoTechnology Center

10 Something on cyber security and IEEE 802
November 2014 doc.: IEEE /0541r0 Something on cyber security and IEEE 802 References to FIPS, version, and later versions. We would like to show how IEEE 802 fits into a comprehensive security architecture. Generally 802 provides layer 2 authentication and encryption. Show key management interfaces and mechanisms. Cypher suites NISTIR (Phil Beecher to provide this) X – Y chart showing NISTIR requirements in rows, and 802 protocols in columns John Kenney, Toyota InfoTechnology Center

11 November 2014 doc.: IEEE /0541r0 Example applications that take advantage of low power operation, (water, oil/gas, line sensors) Example of “constrained” types of devices Ben Rolfe will create this John Kenney, Toyota InfoTechnology Center

12 November 2014 doc.: IEEE /0541r0 November 2014 Comparison with PLC – advantage of operation even if power line is damaged Jeritt Kent will provide Tim Godfrey, EPRI John Kenney, Toyota InfoTechnology Center

13 Example of Mesh Network
November 2014 doc.: IEEE /0541r0 November 2014 Example of Mesh Network Look in L2R contributions. Tim Godfrey, EPRI John Kenney, Toyota InfoTechnology Center

14 IEEE 802.11 standards hierarchy
802.3 802.11 802.15 802.16 802.21 802.22 802.11a through z: Completed Completed 11ac Higher rate in 5GHz band Active: More Grid relevant 11ad Higher rate in 60GHz band Active: Less Grid relevant 11ae Prioritization of management frames 11af TV White Space 11ah 915MHz Band operation (sub 1GHz) 11ai Fast Initial Association 11aj China Millimeter Wave Task Group 11ak General Link (full bridging over WLAN) joint with 802.1 11aq Pre-Association Discovery Task Group 11ax High Efficiency WLAN (HEW)

15 802.11 – Spectrum / Rate view 500MHz 1GHz 2GHz 5GHz 10GHz 60GHz .11ad
802.11ac 500Mbps 802.11n 802.11n 100Mbps .11af .11ah 802.11g .11y .11j 802.11a .11p 10Mbps 802.11 802.11b 1Mbps

16 IEEE 802.15 standards hierarchy
802.3 802.11 802.15 802.16 802.21 802.22 Key Management Protocol Task Group Completed Active – More Grid relevant Active – Less Grid relevant ZigBee 4r 4e 4g 4k 4m 4n 4q Smart Utility Networks (WiSUN) AMI LECIM AMI for TV White Space Layer 2 Routing Task Group

17 802.15.4 PHY Overview (data rate vs frequency)
10Kbps 100Kbps 1Mbps 5GHz O-QPSK CSS CSS 4g O-QPSK 4g ODFM 4g 2FSK 4g 4FSK 2GHz 1GHz 920 BPSK DSSS GFSK O-QPSK, ASK 915 BPSK DSSS O-QPSK 868 BPSK DSSS O-QPSK, ASK 863 780 O-QPSK, ASK MPSK 500MHz

18 IEEE 802.16 standards hierarchy
802.3 802.11 802.15 802.16 802.21 802.22 16n WiMAX Completed – Grid Relevant 16p Small Cell Backhaul 16r Multi-Tier Networks Completed – Less Relevant 16q WiMAX 2 Active – Limited grid relevance High Reliability Machine to Machine Performance Metrics 1a 1b

19

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