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Copyright © PGE, Advanced Energy Industries, and SEL 2014 Field Testing of 3G Cellular and Wireless Serial Radio Communications for Smart Grid Applications.

Published byGrant Derick Gaines Modified over 8 years ago

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Presentation on theme: "Copyright © PGE, Advanced Energy Industries, and SEL 2014 Field Testing of 3G Cellular and Wireless Serial Radio Communications for Smart Grid Applications."— Presentation transcript:

1 Copyright © PGE, Advanced Energy Industries, and SEL 2014 Field Testing of 3G Cellular and Wireless Serial Radio Communications for Smart Grid Applications Robert Ferraro and Chris Steeprow Portland General Electric Michael Mills-Price Advanced Energy Industries, Inc. Bill Flerchinger and JW Knapek Schweitzer Engineering Laboratories, Inc.

2 Agenda Wireless communications in power delivery applications SEGIS-AC project test site and system configuration Evaluation of wireless performance using synchrophasor data ♦ Serial radios ♦ Cellular modems Findings and conclusion

3 Communications Are Critical for Smart Grid Applications

4 Why Use Wireless? Right-of-way issues Installation cost Deployment time

5 Wireless Communications Choices

6 Typical Utility Application Requirements ApplicationLatencyBandwidthDistanceAvailability Teleprotection4 to 60 msLow~20 milesHigh Distributed generation island detection 20 ms to < 2 s Low to medium ~10 milesHigh High-speed restoration ~50 to 100 ms Low~10 milesHigh

7 Typical Utility Application Requirements ApplicationLatencyBandwidthDistanceAvailability SCADA communications SecondsMediumVaries Medium to high Voltage control Seconds to minutes Low~10 milesMedium Remote accessSecondsMedium~10 miles Low to medium Meter reading Minutes to hours LowVariesLow

8 Advanced Energy SEGIS-AC Project Island detection for high-penetration PV installations Ramp rate controller Feeder-level optimization

9 Why Use Synchrophasor Data? PMU Data Play Critical Role in Project Provide live response curve for feeder ♦ High resolution ♦ Near real-time measurements Optimize solar and storage system output Provide time-synchronized, accurate measurements across feeder

10 IEEE C37.118 Summary Is standard for synchrophasors for power systems Provides measurements for frequency, df/dt, voltage and current phasors, analog values, and digital status words Has message rates from 1 to 60 per second Time-synchronizes all measurements to 1 μs

11 Test Site Canby-Butteville Feeder

12 System One-Line Diagram

13 Baldock PV Site

14 Baldock PV Site Equipment GPS Clock PMU 5 PDC Cellular Modems Switch Serial Radios Automation Controller Router

15 Redundant Communications Comparison Parameters Serial RadioCellular Modem Target application Teleprotection and distribution automation Machine-to-machine communications Frequency band 902–928 MHz (ISM band) 800 / 1900 MHz (dual-band) Wireless technology FM (GFSK) frequency hopping 3G 1xEV DO Rev A CDMA and TDM 16QAM

16 Redundant Communications Comparison Parameters Serial RadioCellular Modem Peak data rate 38.4 kbps (Serial Port 1), 19.2 kbps (Serial Port 3) 3.1 / 1.8 Mbps (downlink/uplink) InterfacesSerialSerial, Ethernet Equipment cost$1,500 per device$750 per device Monthly costNA$59 per device

17 Wireless Device Interconnections

18 Making Wireless Operational Path study Site survey Temporary test system Spectrum analysis Future site plans

19 Path Study Pole 4 to Baldock PV Site

20 Optimizing Serial Radio Performance Antenna polarization Frequency skip zones TX / RX synchronization

21 Cellular Coverage Closest Cellular TowerBaldock PV Site

22 Modem Setup

23 Lessons Learned Setting Up Wireless Training is required Involve IT organization Plan up front – path study, site survey, and so on Actual performance of system may vary

24 Wireless Performance Summary Communications Link RSSI Reported at Baldock PV Site (dBm) Total Measured Latency (ms) (wireless only) Calculated Availability (%) Wired (Serial)NA112 (NA)100 Wired (Ethernet)NA109 (NA)100 Serial Radios 1 to 5–80168 (56)100 Serial Radios 2 to 6–77167 (55)100 Serial Radios 3 to 7–65169 (57)100 Serial Radios 4 to 8–51167 (55)100 Cellular Modems 1 to 5–64334 (225)99.60 Cellular Modems 2 to 6–64351 (242)99.78 Cellular Modems 3 to 7–96353 (244)99.24 Cellular Modems 4 to 8–68353 (244)98.30

25 Wireless Latency and Availability Dropouts Serial Radios Cellular Modems Wired Serial Radios Cellular Modems

26 Availability – One Day at a Time Serial Radios Cellular Modems

27 Recommended Applications Serial radios ♦ High-availability protection or control ♦ Applications requiring low latency ♦ Remote or populated areas 3G cellular modems ♦ High-bandwidth data transfers ♦ Applications tolerant of dropouts ♦ Only areas with cellular coverage

28 Conclusion Wireless communications can be used in smart grid implementations Up-front studies and planning are needed to ensure smooth rollout and robust connection Many wireless solutions are available – choose to match requirements 3G cellular may not be well suited for synchrophasor applications

29 Questions?

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