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Transcript of Teleprotection Schemes and Equipment - etouches Schemes And Equipment 2. 3 ... •Reduces...
![Page 1: Teleprotection Schemes and Equipment - etouches Schemes And Equipment 2. 3 ... •Reduces transmission line damage. ... the remote terminal from “Over Tripping” on external faults.](https://reader034.fdocuments.us/reader034/viewer/2022050722/5adb3e817f8b9a6d318dcf51/html5/thumbnails/1.jpg)
Teleprotection Schemes and Equipment
James W. EbrechtYoung Power EquipmentScottsdale, AZ
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~ ~
Teleprotection
Relay
Teleprotection
Relay
Communications channel
Protection System
Teleprotection SchemesAnd Equipment
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Why Use Communications?
Teleprotection provides several important benefits
•Trip only the faulted line section.•High speed simultaneous clearing for all internal line faults including end zone faults.
•Prevents overtripping on external line faults.•Allows existing lines to transmit greater power.•Reduces transmission line damage.•Allows for high speed reclosing.
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AC Pilot Wire RelaysShort lines
Directional Comparison with Distance Elements Power Line CarrierAnalog MicrowaveAudiotone
Phase Comparison*Power Line Carrier
Current Differential and Charge Comparison*AudiotoneDigital Channels
1935 1990
Teleprotection History
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Relaying Communication Equipment
• Analog Channels Analog Microwave channelsLeased Telephone LinesMultiplexer voice channels
• Digital ChannelsDigital Microwave channelsLeased Digital Data Service Multiplexer data channels
• Dedicated Fiber Optic Cable
Singlemode FiberMultimode Fiber
• Powerline CarrierOn / Off CarrierFrequency Shift Carrier
FSK Tones
Proprietary and Industry standard codes
RF Frequency coupled toTransmission line.
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Pilot WireMetallic cable between the substations
Voice Channels, AudiotoneLeased telephone linesAnalog microwaveAnalog DSO
Digital mediaCSU/DSU 2,400 bps to 56/64 kbps leased phone lineDedicated fiber optic pair (C37.94)Multiplexed digital networks (T1/SONET/MPLS)
Communication link may be fiber, metallic or digital microwave
Spread Spectrum RadioVery limited use for protection signaling
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Coming soon to a substation near you….Packetized data Ethernet/IP Teleprotection
IEC 61850
From this to this
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Directional Comparison Blocking
Left Right
Pilot Directional Relays (PL) set to reach 120 % of protected line
Pilot Directional Relays (PR) set to reach 120 % of protected line
Start relay (SL) is set more sensitive then Right Pilot relay
Start relay (SR) is set moresensitive then Left Pilot relay
BkrTrip
2
2
PL Relay
Blocking Receiver
Transmitter
SL Relay
(+) Sta Bat
(-) Sta Bat
BkrTrip
2
2
PR Relay
Blocking Receiver
Transmitter
SR Relay
(-) Sta Bat
(+) Sta Bat
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Blocking channel requirementsOperate Time:Blocking applications require channels times between 3 to 5 msec. These times are necessary to preventthe remote terminal from “Over Tripping” on external faults.
Security:Blocking applications require minimal security because the communication channel can not causea false trip
Dependability:Blocking applications are highly dependably because the relaying system will operate without the teleprotection channel.
Analog Channel:Rarely used because of the slow operate times. Channels require wide bandwidth for fast operate times.Power utility may have to lease telephone channels.
Digital & Fiber Optic:Becoming more popular because of the fast operate times, and increasing availability.
Powerline Carrier:Most popular because of a large installed base. The power utility has complete control over thecommunications channel, and the equipment.
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Permissive Transfer Tripping
Left Right
Pilot Directional Relays (PL) set to reach 120 % of protected line
Pilot Directional Relays (PR) set to reach 120 % of protected line
BkrTrip
2
2
PL Relay
POTT Receiver
PL Relay
POTT Transmitter
(+) Sta Bat
(-) Sta Bat
BkrTrip
2
2
PR Relay
POTT Receiver
PR Relay
(-) Sta Bat
(+) Sta Bat
POTT Transmitter
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Permissive channel requirementsOperate Time:Blocking applications require channels times between 8 to 12msc. These times are necessary to allowthe remote terminal to trip quickly for all internal line faults
Security:Permissive applications require security to prevent the channel from enabling a trip. Typical problems occur for current reversals on parallel lines.
Dependability:Permissive applications require dependably to permit high speed clearing of both terminal. Unblock tripoutputs are commonly used to enable tripping should the channel fail, coincident with a line fault.
Analog Channel:Commonly used because they offer diverse routing. Channels require medium bandwidth to provide the required operate times.
Digital & Fiber Optic:Becoming more popular because of the fast operate times, and increasing availability.
Powerline Carrier:Most popular because of a large installed base. The power utility has complete control over thecommunications channel, and the equipment. Unblock trip output is always provided, either programmed intothe relay, or the communication equipment. 11
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Direct Transfer Tripping
Left Right
BkrTrip
Local Relays DTT Receiver
(-) Sta Bat
(+) Sta Bat
BkrTrip
Local RelaysDTT Receiver
(-) Sta Bat
(+) Sta Bat
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Direct Transfer Trip channel requirementsOperate Time:DTT applications require typical channels times around 12msc. These times are not as critical as Blocking, orPermissive applications, as these are backup functions.
Security:DTT applications require very high security to prevent the channel from directly causing a false trip output.
Dependability:DTT applications require very high dependably. This application is typically a breaker failure backup, andmust operate to limit equipment damage.
Analog Channel:Commonly used because they offer reliability due to diverse routing. Channels require medium bandwidth to provide the required operate times. Applications always use dual tones, on a dedicated channel, to provide high security.
Digital & Fiber Optic:Becoming more popular because of the fast operate times, high security, dependability and increasing availability.
Powerline Carrier:Most popular because of a large installed base. The power utility has complete control over thecommunications channel, and the equipment. Unblock trip output is never used in DTT applications.
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Phase Comparison Relaying
Left Right. .Through load or external fault condition
CommunicationsChannel
PhaseComparison Relay
TeleprotectionEquipment
PhaseComparison Relay
TeleprotectionEquipment
External Fault Conditions
Left TerminalLocal Tx Signal
Received SignalFromRight Terminal
No TripOutput
Right TerminalLocal Tx Signal
Received SignalFromLeft Terminal
No TripOutput
Internal Fault Conditions
Left TerminalLocal Tx Signal
Received SignalFromRight Terminal
TripOutput
Right TerminalLocal Tx Signal
Received SignalFromLeft Terminal
TripOutput
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Phase Comparison Relay Channel
Operate Time:Phase Comparison applications require channels times around 8 ms. The channel delay should be constant, as excessive channel delay time will cause a phase shift in the composite current signal.
Security:Single Phase Comparison applications utilize a “Blocking” philosophy, and can over trip on loss of signal. Dual phase comparison system utilize frequency shift keying, and an Unblock Trip” philosophy. This system utilizes an 150 ms unblock trip output to permit tripping upon loss of channel
Dependability:The single phase comparison system is more dependable because receipt of a tripping command is not required to trip the system.
Analog Channel:Frequency shift audio tones are commonly used for this application.
Digital & Fiber Optic:Becoming more popular because of the fast channel times, and increasing availability. Channel delay could be critical if the teleprotection is applied on a switched network.
Powerline Carrier:On/Off Powerline carrier is used for single phase comparison systems, while FSK carrier is used for dual phase comparison systems. 15
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Current Differential Protection
Left Right. .Through load or external fault condition
HCB
R
O
Seq.
Net
HCB
R
O
Seq. Net
Left Right. .Internal fault condition
HCB
R
O
Seq.
Net
HCB
R
O
Seq. Net
Pilot Wires
Pilot Wires
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Current Differential channel requirements
Operate Time:Current differential applications require channels times less then 1 msec. Excess channel delay time will causea phase shift in the composite current signal.
Security:Because of the large amount of data required for current differential applications, a loss of channel is moreprobable then a false trip. False tripping would most likely occur if the HCB operated as a over currentrelay, or on the independent transfer trip function.
Dependability:Dependability is critical for current differential applications, because without communications the relay system will not operate.
Analog Channel:Not recommended for current differential applications, because of the excessive channel delay times.
Digital & Fiber Optic:Becoming more popular because of the fast channel times, and increasing availability. Channel delay is criticaland must be calculated for each channel routing.
Powerline Carrier:Powerline carrier is never used for current differential applications because the channel may be corrupted and unavailable when the line is faulted.
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Effects of channel delay onCurrent Differential Protection
Left TerminalLocal Signal
Right TerminalReceived Signal
Differential Current
Left TerminalLocal Signal
Right TerminalReceived Signal
Differential Current
0° Phase ShiftNo Channel Delay
90° Phase Shift4 msec Channel Delay
Left Right. .Through load or external fault condition
HCB
R
O
Seq.
Net
HCB
R
O
Seq. Net
DigitalInterface
DigitalNetwork
DigitalInterface
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Protection equipment
Teleprotection transmitter
Telecommuni- cation circuit and/or link
Teleprotection receiver
Protection equipment
Circuit-breaker
Fault recognition time
Time for initiating command
Propagation time
Selection and decision
time,commandrelay
included
10 - 30 ms 1 - 5 ms 1 - 40 ms 0 - 20 ms
Additionaldelay due
to noise
0 - 10 ms 30 - 80 ms
Relaydecision
time
Operatingtime,
includingarcing
time
To2 - 45 msNominal transmission time,
propagation time not included Tac
Maximum actual transmission time under noisy conditions for a defined dependability and SNR, propagation time not included
2 - 65 ms
0 - 5 ms
TOverall channel operate time
Fault clearance time for a protection system
Tc Fault clearance
Fault inception
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Types of Communications, Channels and Circuits
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SONET
Synchronous Optical Network
Commonly referred to and notated as OC3, OC12, OC48 etc.
OC1 = 28 T1
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WHAT IS SONET?
Synchronous Optical NETwork
A Global Standard for Optical Signals for Communications- American National Standards Institute (ANSI)- Telcordia which was Bell Communications
Research (Bellcore)- International Telecommunications Union (ITU)
Motivation: An Open Systems Optical Architecture for Multi-vender Interworking
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T1 LINKT1 MUX T1 MUX DTT
DCBHCBDATA
OPXOPXOPX
DTTDCBHCBDATA
OPXOPXOPX
T1 Channel Bank
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Channel Delay Time overT1 Multiplexer
Two milessinglemode fiber
Sample Channel Delay CalculationDelay into T1 Channel = 187.5 us.
4 Miles Optical Fiber delay @ 8.0 us./ mile = 32.0 us.* Delay through one Drop & Insert Terminal = 25.0 us.
Delay out of T1 Channel = 187.5 us.Total delay time = 432.0 us.
CurrentDifferential Relay Interface
CommonLogic
SyncDatamodule
CommonLogic
SyncDatamodule
Drop & Insert Terminal
CurrentDifferential Relay Interface
HCBRelay
HCBRelay
Two milessinglemode fiber
* Note:Systems utilizing Digital Access and Cross-connect (DACS)units will incur a 250us delay going into and out of each DACS.24
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Digital Circuits and Equipment
Proprietary Circuits and Equipment:SEL Mirrored Bits, 421RFL Digital, 9745, GARD8000GE Digital, N60Iniven Digital, PRU2000
Non-Proprietary Circuits and Equipment:IEC 61850 and deviceC37.94 interfaces
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Audio Circuits or Paths
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300 to 3,400 Hertz
What is an Audio Circuit?
Digital or Analog Microwave
A VF DSO on a channel bank
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-16 dB
340 HzChannelSpacing
Frequency Group 3(+/- 75 Hz. Shift)Trip A = 1540 Hz.Guard A = 1690 Hz.Guard B = 1880 Hz.Trip B = 2030 Hz.
Frequency Group 5(+/- 75 Hz. Shift)Trip A = 2220 Hz.Guard A = 2370 Hz.Guard B = 2560 Hz.Trip B = 2710 Hz.
1004 Hz.Reference
300 Hz. 3400 Hz.
Analog Voice Channel Frequency Allocation
SubchannelA B
2635Hz
2295Hz
1955Hz
1615Hz
StandardFrequency Groups3 5
SubchannelA B
340Hz
340Hz
340Hz
T G T G G TG T
POTT DTT
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Basic function is a change of frequency to change trip output status
Tones are linear and do not contain data
Receiver monitors tones for proper timing and freq. shift
FSK Keying
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Orthogonal Audio Keying
Digital Data over Audio
OFDM Protocol
Operates at 6.6 Kbps
22 simultaneous tones
Uses entire Audio Frequency band (300Hz - 3200Hz)
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• Narrow bands at different frequencies transmit digital data• Phase comparison to send 2 bits per tone• Synced using pilot tones
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Powerline Carrier
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Transmission Line Communications Medium
Advantages:
1. The powerline offers a robust medium that is designed forreliable service.
2. The powerline is under the complete control of the utility.
3. The powerline originates, and terminates at the desiredlocations.
Disadvantages:
1. Increased signal attenuation may occur at the time of the fault.
2. Noise levels may increase at the time of the fault.
The powerline carrier signal must be coupled to the transmission linewith expensive line tuning equipment.
Powerline Carrier
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Line Trap Line Trap
On / OffCarrier
FSKCarrier
RFHybrids
Line Tuner
CouplingCapacitor
On / OffCarrier
FSKCarrier
RFHybrids
Line Tuner
CouplingCapacitor
Typical two terminal line, powerline carrier system
Powerline Carrier System Components•Transmission Line•Line Tuners•Coupling Capacitors•Line Traps•RF Hybrids•PLC Transmitter, and Receiving equipment•Interconnecting coaxial cables
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Line Trap Line Trap
On / OffCarrier
FSKCarrier
RFHybrids
Line Tuner
CouplingCapacitor
On / OffCarrier
FSKCarrier
RFHybrids
Line Tuner
CouplingCapacitor
230 KV / 80 Mile Line
400 Ohms
470 Ohms 400 Ohms
216 Ohms
400 Ohms 471 Ohms
216 Ohms
400 Ohms
Bus Impedance 700 Ohms
Bus Impedance 600 Ohms
(3) Line Impedance@ 240 Ohms
(3) Line Impedance@ 240 Ohms
Typical two terminal line, powerline carrier system
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References and Credits:
Telecommunications of the Power System, Bob Ince, HRS 2003
The Art & Science of Protective Relaying, C. Russell Mason, GE
Communications for Power System Relaying, Solveig Ward
Newton’s Telecom Dictionary, 23rd Edition
Marc Benou, Iniven
www.123rf.com, photos
Communications for Power System Protection, Tom Dahlin
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