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Copyright © SEL 2010
Advancements in Transmission Line Protection and Fault Location
Brian Smyth
Lead Product Engineer
Today’s Focus
• Need for better line protection
• Multiterminal 87L over Ethernet
• Using time in critical applications
• Traveling wave fault location
• Validating complex protection schemes
Line Protection Challenges
• Stressed power systems demand more from protection
• Transient stability margins
• Unusual system conditions
• 87L schemes address many problems
Multiterminal SEL-411L Over Ethernet
Multiterminal 87L SchemesImplementation Requirements
• Communication of current signals
♦ One-to-many data transmission
♦ Many-to-one data reception
• Current data alignment
• Algorithm suitable for multicurrent differential zones
Traditional Three-Terminal Scheme
87L(1)
87L(2)
87L(3)
87L(1)
87L(2)
87L(3)
Traditional Three-Terminal Scheme
PORT 1
PORT 2
PORT 1
PORT 2
PORT 1 PORT 2
CHANNEL 1
CHANNEL 2 CHANNEL 3
Multiterminal Alpha Plane
CT-5 CT-6T3
CT-1
CT-2
T1
CT-3
CT-4
T2
IDIF(N)
IRST(N)
I3
I2
I1
I4IN
IDIF(2)
IRST(2)
IL EQ
IR EQ
IL EQ IR EQ
IL EQ
k = IR EQ
Faults on 87L Alpha Plane
0 180
InternalExternal
Multiterminal Alpha Plane
ILQ EQ
IRQ EQ
ILQ EQIRQ EQ
Im(k)
Re (k)
Four-Terminal Scheme
87L(1)
87L(2)
87L(3)
87L(4)
Four-Terminal SchemePoint-to-Point Serial?
Impractical• Number of ports and channels• Data alignment challenges
87L(1)
87L(2)
87L(3)
87L(4)
Terminals Ports Channels3 2 34 3 65 4 106 5 15
Four-Terminal SchemeEthernet With Dedicated Fiber
87L(1)
87L(2)
87L(3)
87L(4)
SWITCHSWITCH
SWITCH SWITCH
• All relays receive all remote data• Dedicated fiber between switches• Isolated Layer 2 Ethernet network• Optionally, a ring for fiber redundancy
SEL-411L Implementation
• Dedicated Ethertype from IEEE
• Layer 2 Ethernet
• VLAN for multiple 87L schemes
• Extra data integrity (Ethernet CRC)
• MAC addresses to identify relays in the same scheme
SONET RING
MultiplexerMultiplexer
Multiplexer Multiplexer
Four-Terminal SchemeEthernet Over Protection-Class SONET
87L(1)
87L(2)
87L(3)
87L(4)
• All relays receive all data• Relay to multiplexer over Ethernet• TDM between multiplexers• Advantages of SONET
87L Serial vs. Ethernet Over ICON
• Point-to-point between relay and multiplexer
• One physical connection per terminal
• ICON maps serial circuits between sites
• One point-to-point connection between relay and multiplexer
• ICON delivers packets based on VLAN
SEL ICONMultiplexer
SEL-411L
IEEE C37.94, EIA-422
TDM
SEL ICONMultiplexer
SEL-411L
Ethernet
TDM
87L Algorithm for Multiterminal Applications
• Tried-and-true Alpha Plane
• Generalized Alpha Plane to handle any number of currents
• External fault detection for CT saturation
• Charging current compensation
• In-line transformers
Technical paper “Tutorial on Operating Characteristics of Microprocessor-Based Multiterminal Line Current Differential Relays”
SEL-411L With 87L Over Ethernet
• Applicable with♦ Isolated network
with dedicated fiber
♦ Deterministic Ethernet over ICON
• Allows four-terminal applications
• Natural extension of serial applications
• Requires time for current alignment
Using Time in Critical Power System Applications
Time in Critical Applications
• Wide-area time needed for
♦ Line current differential
♦ Synchrophasors
♦ Multiended fault locators
• Need for robust time source and distribution
• Coherent time despite GPS problems
SONETTime Source and Distribution
• SONET keeps all multiplexers tightly synchronized
• ICON integrates GPS receivers
• GPS receivers act as redundant time inputs
• ICON provides coherent time across the network
Time Over ICONSimplicity
Service Module Line Module
GPS Antenna Input
IRIG-B Outputs
IRIG-B Input
IEEE 1588 Timing Protocol (Future)
Advanced Time Synchronization
• SEL-2488 GPS Clock
• Need a good holdover state to be reliable
• TCXO = 36us/day
• OCXO = 5us/day
Traveling Wave Fault Location
2 11
d L v • t t2
2 1L 2d v • t t
Traveling Wave Fault LocationPrinciple of Operation
L - 2d
t2
d
t1
d
t1
Extracting the Waves
0.2 0.22 0.24 0.26 0.28 0.3 0.32 0.34 0.36 0.38 0.4
-6000
-4000
-2000
0
2000
4000
6000
0.298 0.299 0.3 0.301 0.302 0.303 0.304 0.305-3000
-2000
-1000
0
1000
2000
3000
0.298 0.299 0.3 0.301 0.302 0.303 0.304 0.305-100
-50
0
50
100
150
10 kHz to 0.6 MHz
DC to 0.6 MHz
Traveling Wave Fault Locators (TWFLs)
• Accurate
♦ Down to a tower span
♦ Regardless of line length
♦ On series-compensated and coupled lines
• Immune to limitations of other methods
♦ Fault resistance and infeed effect
♦ Changing fault resistance
♦ Not enough data due to fast fault clearance
SEL Designed a TWFL Before ...
Dr. Schweitzer’s work in the mid-1980s for Bonneville Power Administration (dc lines)
SEL-411L Implementation
• Current-based
• Double-ended, using arrival times
• 87L channel to exchange time stamps
• Built-in traveling wave oscillography
• In parallel with impedance-based fault locator
TWFL Feasibility in Protective Relays
CT Primary
CT Secondary
CAL Board Output
10 s
SEL-411L TWFL Hardware
• 6 channels
• Sampling at 1.5625 MHz each
Traveling Wave Oscillography
Field Experience
• 72.78-mile 161 kV line at BPA (Goshen-Drummond)
• 18 sections with 4 different tower configurations
Event on April 24, 2012 60 Hz View
Event on April 24, 2012 Traveling Wave View
Event onApril 24, 2012
Front Wave
Event on April 24, 2012Fault Location Results
Method Miles From GoshenTwo-End Traveling Wave (SEL-411L) 68.181Two-End Impedance 66.03Single-End Impedance Relay 1 64.05Single-End Impedance Relay 2 64.15
“Using this information we asked the line crew to go to 68.181 miles and they found the flashed insulator at 68.242 miles. This was within one tower off where we said to look. The first span from 68 mile is 551 feet, the second span is 725 feet. Picture of the April 24th flashover attached.”
—Stephen Marx, BPA
Event on April 24, 2012Flashed Over Insulator
Few More Examples
Event Fault Location (Actual)
Fault Location (SEL-411L)
Flashover 68.242 mi 68.181 mi
Insulator Damage 38.398 mi 38.426 mi
Lightning Strike Under Investigation 67.76 mi
Lightning Strike Insulator Damage
Questions?
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