01 Martin Timing Needs for Power Industry Final (1)
Transcript of 01 Martin Timing Needs for Power Industry Final (1)
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Aaron MartinThe Bonneville Power Administration
WHY INDUSTRY NEEDS TIMEA POWER INDUSTRY CASE STUDY
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Bonneville Power Adminstration
IntroductionBonneville Power Administration
Background
Power System Transmission Applications that require Precise Time
Examples of Power System Applications Affected by Precise Timing errors.
BPA Plan’s for Communication Infrastructure
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Bonneville Power Adminstration
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BPA SERVICE TERRITORY
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BPA SERVICE TERRITORY
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Power System Transmission Applications that Require Precise Time
§ Phasor Measurement Units§ Line Differential Protection§ Traveling Wave Fault Location§ System Event Recordings§ Substation Local Area Networks
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PHASOR MEASURMENT UNITS or SYNCROPHASORS
§ PMUs Synchro-phasors, or Phasor Measurement Units (PMUs), are synchronized measurement systems that provide information on phasor angles and frequency at different power system locations.
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PHASOR MEASURMENT UNITS or SYNCROPHASORS
§ Why 1 micro-second accuracy requirement?Ø Power System frequency = 60Hz
◆ One period or 360 degrees = 16.6ms◆ 0.25 degrees = 11.5 micro-seconds
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WISP – Western Interconnection Synchrophasor Program
PHASOR MEASURMENT UNITS or SYNCROPHASORS
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PHASOR MEASURMENT UNITS or SYNCROPHASORS
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POWER SYSTEM TIMING REQUIRMENTS
Why PMUs§ High speed, real time data stream
Ø 60 samples per second§ Time synchronized measurements
Ø Wide area phase angle differences§ Flexibility in data stream
Ø Analog and digital values are included
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August 2003 East Coast Blackout
PHASOR MEASURMENT UNITS or SYNCROPHASORS
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PMU vs. SCADA
PHASOR MEASURMENT UNITS or SYNCROPHASORS
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Abnormal Angle
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Abnormal Angle
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Frequency Event Location
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Insertion of 1.4 Gigawatt Load Break in Eastern Washington
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Frequency Event Location
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Line Differential Relays§ Compare current magnitudes, phase angles to two ends of a
transmission line § Communications and high accuracy time dependent!§ Changes in communications paths, channel delays, or timing
errors can cause potential problems
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Traveling Wave Fault Location
What is a power system fault?
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Traveling Wave Fault Location§ Drop a stone in a still pond
� you produce a wave that moves out from the center� In ever increasing circles
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Traveling Wave Fault Location§ Requires a sampling rate of 1.5 Mhz (500 Nano-seconds) for
fault locations to be accurate within 500 feet.
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Traveling Wave Fault Location§ Traveling Wave Event
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System Event Recording§ Digital Events requires millisecond time-tagging
Ø Equipment Alarms, Power Circuit Breaker Operations
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Substation Local Area Networks
§ IEC – 61850 GOOSE Messages – 1ms accuracyØ SNTP – 1ms accuracy
§ IEC – 61850 Sample Values - 1 micro second accuracyØ 1PPS Sync SourceØ C37.238 / 61850-9-3 PTP
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Power System disturbances caused by un-synchronized time
§ 500kV transmission line outage caused by Bad GNSS dataØ Line current differential during GPS testing
ØInvestigation revealed Airforce GPS satellite testingØSome GPS receivers were affectedØOfficial Notice: Since March 15, 2014, the Air Force has been conducting functional checkout on a GPS satellite, designated Space Vehicle Number (SVN) 64. SVN 64 broadcasts a data message that clearly indicates SVN 64 is unusable for navigation. http://www.gps.gov/news/2014/05/GPS-device-problem/
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Power System disturbances caused by un-synchronized time
§ 500kV transmission line outage caused by Bad GNSS dataØ Line current differential during GPS testing
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ØResolutions and joint learningØTrack planned GPS testing noticesØUse GPS receivers that detect test mode
ØUse in-channel timing as source/backup
ØDesensitized differential phase preferably above load and below internal fault
ØUtilize zero and negative sequence differential elements
Power System Disturbances Caused by Un-Synchronized Time
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Power System Disturbances Caused by Un-Synchronized Time
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Example of PMU bad data caused byun-synchronized time
§ Several PMU lost GPS Sync on 3/15 for several minutes
§ During the event, there were multiple instances of both PMUs reporting that the synch had been re-established and that their status was good - even though it wasn't.
§ Redundant PMU did not experience this problem.§ We are confident that the synch was not re-established because the phase angle for these PMUs jumped by 40 degrees each time the status cleared.
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Example of PMU bad data caused byun-synchronized time
Synchronization Accuracy monitoring relies on system data.
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BPA Communications
Ø BPA covers 4 states with thousands of command and control circuits on legacy systems.
Ø The legacy communications systems are going EOL
Ø Maintenance is also becoming an issue
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What do we have?
The BPA communication system consists of Microwave (MW) and Synchronous Optical Networking (SONET) over Fiber Optics (FO). All of these communications systems utilize Time Division Multiplexing (TDM) technology to share the total bandwidth. Though functional, this implementation is inefficient and costly when supporting IP networks.
SONET Fiberor
Any Microwave
NMSNMS
FIN FINPhasorsPhasors
01
31
3
45
GenICCP GenICCP
SecurityRelaysSecurity
$26K$26K
$26K
$26K$26K
$26KRelays
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What do we need?
We need a system with the reliability of SONET but the ability to make use of idle bandwidth for other applications. We need traffic to travel across the transport at the maximum speed the physical medium supports, to allow new applications of technology. We need a system requiring less overall impact.
SONET Fiberor
Any Microwave
NMSNMS
FIN FIN
PhasorsPhasors
Video Video
Video conferencing needs 384 kbps.Assume 4 hours use per day = 5.5 Gbit.20 hours of idle time = 27.5 Gbit.
80% of the bandwidth is wasted daily!
GenICCP GenICCP
100 byte travel time
DS-0 12.5msT-1 0.5msGigabit 0.0008ms
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Carrier Ethernet – PBB-TEProvider Backbone Bridge Traffic Engineering
Ø After exhaustive evaluation we chose Carrier Ethernet as our next Transport Infrastructure
Ø PBB-TE supports SONET like switch times with some notable constraints. 16/1200
Ø PBB-TE deterministic, connection oriented services
Ø Carrier Grade reliability and availability
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What Protection Engineers Need to be asking
- Latency Requirements for Services requested
- Asymmetry (Packet Jitter) specification- How does switch time spec affect function
- What connections are going to be provided – physical fiber connector types
- Blocking mechanisms a sufficiency on links that can appear active with as much as 20% packet loss
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Conclusion
ØBackground on BPA Power SystemØPrecise Timing ApplicationsØEvents that show how sync affect protection were discussed
ØPower Systems cover large areas requiring accurate timing to keep the system balanced.
ØEvolution of com system is comingØ Along with it are the timing requirements
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Questions?
WHY INDUSTRY NEEDS TIMEA POWER INDUSTRY CASE STUDY