protection basics - ieee...• what is the function of power system protection? • name two...
TRANSCRIPT
![Page 1: Protection Basics - IEEE...• What is the function of power system protection? • Name two protective devices • For what purpose is IEEE device 52 is used? • Why are seal-in](https://reader033.vdocument.in/reader033/viewer/2022041921/5e6c1ced3e2f9f7030719fcf/html5/thumbnails/1.jpg)
Copyright © SEL 2013
Protection Basics
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Protection Review
• Fault types
• Electrical equipment damage
• Time versus current plot
• Protection requirements
• Protection system elements
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Power System Faults
• Short circuits
• Contacts with ground ♦ Isolated neutral systems
♦ High-impedance grounded systems
• Open phases
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Typical Short-Circuit-Type Distribution
Single-phase-to-ground 70 – 80%
Phase-to-phase-to-ground 10 – 17%
Phase-to-phase 8 – 10%
Three-phase 2 – 3%
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abc
Distribution Substation
Faults in Electrical Systems Produce Current Increments
I
I
Wire
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–te eiT(t) (T – T )e Tτ= +2dW I R
dt=
Temperature Rise From Current
t
T
Equilibrium
Ti
TeI
T
Constant Current
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Factors Influence Wire Heating
d
Current Magnitude Wire Material
Properties
Ambient Temperature
and Other Environmental
Factors
I
Wire Size
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t
T
td
Insulation Damage
Ti
Td
Te
Insulated Conductor (Cable) Thermal Damage
I
Insulation
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Insulated Conductor Thermal Damage
I
T
Damage Curve
I1Imd I
t
I2 I3
t1t2t3
t2t3 t
T
t1
Td
Ti
I = Imd
I = I1I = I2 > I1I = I3 > I2
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Damage Curve
RatingIn Imd I
t
Electrical Equipment Component Thermal Damage Curve
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Mechanical Damage
Mechanical forces (f1 and f2) produced by short-circuit currents cause instantaneous damage to busbars, insulators, supports,
transformers, and machines
i1 i2
f1 f2
f1 (t) =k i1 (t) i2 (t)
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Real-World Mechanical Damage
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Power System Protection Requirements
• Reliability ♦ Dependability
♦ Security
• Selectivity
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Power System Protection Requirements
• Speed ♦ System stability
♦ Equipment damage
♦ Power quality
• Sensitivity ♦ High-impedance faults
♦ Dispersed generation
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Protection Functions
• Fault detection
• Faulted element disconnection
• Fault indication
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Protective Devices
• Fuses
• Automatic reclosers
• Sectionalizers
• Circuit breakers
• Protective relays
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Relay Classification
• Protective
• Regulating
• Reclosing and synchronism check
• Monitoring
• Auxiliary
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IEEE C37.2 Device Numbers
51 Time-overcurrent relay
50 Instantaneous-overcurrent relay
67 Directional-overcurrent relay
21 Distance relay
87 Differential relay
52 Circuit breaker
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Protective Relaying System
52
Relay
DC Supply
Communications Channel
DC Supply
Circuit Breaker
Current Transformers
(CTs)
Voltage Transformers
(VTs)
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Protection System Elements
• Protective relays
• Circuit breakers
• CTs and VTs (instrument transformers)
• Communications channels
• DC supply system
• Control cables
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Protection System Elements
• Protective relays ♦ Monitor
♦ Detect
♦ Report
♦ Trigger
• Circuit breakers ♦ Interrupt
♦ Isolate from abnormal condition
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Instrument Transformers
• CTs ♦ Current scaling
♦ Isolation
• VTs ♦ Voltage scaling
♦ Isolation
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Overcurrent Relay Connections
52
50, 51 50, 51 50, 51 50N, 51N
3I0
Ia
IbIc
abc
Residual Current
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DC Tripping Circuit
DC Station Battery SI Relay
Contact
Relay
Circuit Breaker
52a
(+)
(–)
SI
52 TC
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Overcurrent Relay Setting
• 51 elements ♦ Pickup setting
♦ Time-dial setting
• 50 elements ♦ Pickup setting
♦ Time delay
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Review
• What is the function of power system protection?
• Name two protective devices
• For what purpose is IEEE device 52 is used?
• Why are seal-in and 52a contacts used in the dc control scheme?
• In a typical feeder OC protection scheme, what does the residual relay measure?
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Questions?
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Copyright © SEL 2013
Digital Relay Basics
SEL-751A Feeder Protection Relay
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Simple Protective Relay Auxiliary input
(ac or dc)
Settings
Output (dry contact)
Contact used to energize circuit breaker trip coil
Set relay thresholds and operation time
Current, voltage (I and V), or other quantities
Input
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Electromechanical Instantaneous Overcurrent Elements
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Magnetic Attraction Unit
Instantaneous Element
Force of contact: F = k • I2
Contacts
ArmatureHinge
Coil
Contacts
Coil
Iron coreAdjustable
stop
Contacts
Hinge
Restraining magnet
Operating magnet
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Pickup Current Setting
• Tap in relay current coil
• Adjust air gap
• Adjust spring
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Electromechanical Inverse-Time Overcurrent Elements
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-5 -6 -7 -8 -9 1.0
Anatomy of Induction Disc
Overcurrent Relays
Time Dial
Spring
Disc
Main Core
Permanent Magnet
Main Coil,NT Turns
Moving Contact
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Simplified View Shaded Pole Element
Main coil NT
turns
Permanent magnet
Taps
Spring
Disk
Axis Φ2Φ1
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Electromagnetic Induction Principle
Φ2 Φ1
F2 F1 iΦ1
iΦ1
iΦ2
iΦ2
Torque
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Summary of Induction 51 Element Setting
• Pickup current setting – taps in relay current coil
• Time-current curve setting – controls initial disc position (time dial setting)
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Microprocessor-Based Protection
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Digital Relay I/O Scheme
Computer-based relay (digital)
Computer communications
Analog inputs
Discrete inputs
Auxiliary inputs (ac or dc)
Dry contact outputs (trip and alarm)
“Live” outputs
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Digital Relay Architecture
Microprocessor
RAM ROM / PROM EEPROM
Discrete output
subsystem
Operation signalling
Analog input
subsystem
Discrete input
subsystem
}
Analog-to-digital (A/D)
conversion
Tripping
Outputs
Communications ports
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Digital Relay Algorithm
Read present sample k
Digital filtering
Phasor calculation
Protection methods
Relay logic
Modify if required
Trip orderNo trip
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Relay Operation Analog Inputs
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Signal Path for Microprocessor-Based Relays
Analog low-pass
filter
A/D conversion
Digital cosine
filter and phasor
Magnitude and
impedance
Current transformer
(CT)
Potential transformer
(PT)
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A/D Conversion
A/D
Analog signal Digital signal
00000001 00000101 00001001 00100100 10010000
: .
Input Output
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Nonfiltered signal (samples)
Filtered signal (samples)
Digital Filtering
Digital filtering
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Phasor samples: magnitude and angle
versus reference
| I |
θ Reference
Phasor Calculation
Filtered signal (samples)
Phasor calculation
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Sinusoid-to-Phasor Conversion
0 t
A 2 A
0
v(t)
θ
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Sinusoid to Phasors Current Channels Are Sampled
IA
t
IA
1559 –69
–1656 –2274 –1558
70 1656 2273
1 cycles8
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Sinusoid to Phasors
• Pick quadrature samples (1/4 cycle apart)
• Pick current sample (x sample)
• Pick previous sample 1/4-cycle old (y sample)
y sample (1/4-cycle old)
x sample (present)
IA
1559 –69
–1656 –2274 –1558
70 1656 2273
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Sinusoid to Phasors
2274
70
2275
X
Y
IA
t
Ia(t)
–88.2
22 yxMagnitude +=
22 )2274(–70Magnitude +=
=
xyarctanAngle
=
702274–arctanAngle
°∠= 2.88–2275IA
1 cycles8
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Relay Operation Relay Word Bits and Logic
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Relay Word Bits
• Instantaneous overcurrent
• Time overcurrent
• Voltage elements
• Inputs
• Internal relay logic: SELOGIC® variable (SV) and latches
• Outputs Assert to logical 1 when conditions are true,
deassert to logical 0 when conditions are false
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Instantaneous-Overcurrent Element
• 50P1P = instantaneous phase-overcurrent setting
• Ip = measured current of maximum phase
• 50P1P = 1 if Ip > 50PIP; 50P1P = 0 if Ip < 50P1P
When b (+) terminal is greater than a (–) terminal, c is logical 1
a b
c +
_
+
_50P1P
50P1P settingIp
Comparator
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SEL-751A Protection System Phase Time-Overcurrent Element
51P1T Phase Time-Overcurrent Element Curve Timing and Reset Timing
51P1P51P1C51P1TD51P1RS
51P1CT
51P1MR
Settings
Relay Word Bits51P1P
51P1T
51P1R
Controls the Torque Control Switch
Pickup
CurveTimeout
Reset
Torque Control Switch
Setting51P1P
IP(From Figure 4.1)
51P1TC
Reset TimingSetting
51P1RS=Electromechanical 1 Cycle
YN
51P1TCState
Torque Control Switch Position
Logical 1Logical 0
ClosedOpen
SELOGICSetting
PickupPickup TypeTime DialElectromechanical Reset? (Y / N)Constant Time AdderMinimum Response
SELOGICTorque Control
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SEL-751A Protection System ORED – Overcurrent Elements
• Relay Word bit ORED50T is asserted if 50PnT, 50NnT, 50GnT, or 50QnT Relay Word bits are asserted
• Relay Word bit ORED51T is asserted if 51AT, 51BT, 51CT, 51P1T, 51P2T, 51N1T, 51N2T, 51G1T, 51G2T, or 51QT Relay Word bits are asserted
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Standard Time-Current Characteristics IEEE C37.112-1996
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SEL-751A Voltage Calculation
Voltage Magnitude Calculation
(Minimum Phase Voltage Magnitude)
(Minimum Phase-to-Phase Voltage Magnitude)
(Maximum Phase-to-Phase Voltage Magnitude)
(Maximum Phase Voltage Magnitude)
VAB or VA
VBC or VB
VCA or VC
VA
VP min
VPP min
VPP max
VP max
VS
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SEL-751A Single- and Three-Phase Voltage Elements
VP min
VPP max
+
_
–+
–+
27P1P • Vnm
27P2P • Vnm
27P1D
27P1D
0
0
RelayWordBits
3P27
27P1
27P1T
27P2
27P2T
When DELTA_Y := WYE
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SEL-751A Relay Word Bit Tables 8 Relay Word Bits Per Numbered Row
Row Relay Word Bits
1 50A1P 50B1P 50C1P 50PAF ORED50T ORED51T 50NAF 52A
2 50P1P 50P2P 50P3P 50P4P 50Q1P 50Q2P 50Q3P 50Q4P
3 50P1T 50P2T 50P3T 50P4T 50Q1T 50Q2T 50Q3T 50Q4T
4 50N1P 50N2P 50N3P 50N4P 50G1P 50G2P 50G3P 50G4P
5 50N1T 50N2T 50N3T 50N4T 50G1T 50G2T 50G3T 50G4T
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Logic
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Boolean Logic
• Mathematics of logical variables (Relay Word bits)
• Operators: AND, OR, NOT, rising and falling edge, parentheses
• SELOGIC control equations Boolean operators ♦ Defined symbols
♦ Application rules
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SELOGIC Control Equations Operators
Operator Symbol Function
Parentheses ( ) Group terms
Negation - Changes sign of numerical value
NOT NOT Invert the logic
Rising edge R_TRIG Output asserts for one processing interval on inputs rising-edge transition
Falling edge F_TRIG Output asserts for one processing interval on inputs falling-edge transition
Multiply * Multiply numerical values
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SELOGIC Control Equations Operators
Operator Symbol Function
Divide / Divide numerical values
Add + Add numerical values
Subtract – Subtract numerical values
Comparison <,>,<=,>=,=, <> Compare numerical values
AND AND Multiply Boolean values
OR OR Add Boolean values
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SELOGIC Control Equation Examples
A
A
A
B
B
B C
C
C C = A OR B
C = A AND B
C = A AND NOT B
A B
A B
OR1
AND1
AND1 A B
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E = A AND B OR C OR NOT D
Equation implemented
Programmable Logic
Logic
ABCD
E
A
B
DC
E
(–)
(+)
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SELOGIC Control Equation Examples
TR = 50P1P AND 50G1
50P1P 50G1P
TR
TRIP
OUT101
OUT101 = TRIP
Normally open; closes when
OUT101 asserts
When the TR equation asserts, the TRIP Relay Word bit asserts
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Typical Logic Settings for Trip
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SELOGIC Control Equation Examples
CL = CC AND 3P59 AND 27S1
CL
CLOSE
OUT102
OUT102 = CLOSE
Normally open; closes when
OUT102 assertsWhen CL equation
asserts, CLOSE Relay Word bit
asserts
27S1
3P59
CC
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SELOGIC Example
OUT101 = (51P1T OR OUT101) AND NOT TRGTR
!TRGTR
OUT 101
51P1T OUT101OUT101 =
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Optoisolated Inputs
• Relay Word bits IN101 and IN102 monitor physical state inputs
• Debounce timer is built in and settable
65000 ms
65000 ms
IN101
IN102
de-energized
energized
logical 0
logical 1
IN101
IN10265000
ms
65000 ms
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Latching Control Logic
SET01 = CLOSE RST01 = TRIP 52A = LT01
SELOGIC Latch Equation
Relay Word Bit
LTnSETn
RSTnn = 1 – 32
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SV Timer
• Set as logic placeholder and timer
• Example settings ♦ SV05 = 50P1P
♦ SV05PU = 0.17 seconds
• Operation ♦ SV05 asserts when 50P1P asserts
♦ SV05T asserts 0.17 seconds after 50P1P asserts
SV05PU
SV05D0
SV05 SV05
SV05T
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Outputs
• When OUT101 equation is true (logical 1), OUT101 closes
• Example setting: OUT301 = SV05T
• Operation: OUT301 closes after 50P1P has been asserted for 0.17 seconds
OUT101
OUT102
OUT101
OUT102
logical 0
logical 1
de-energize
energize
OUT101(a)
OUT102(a)
Open
Closed
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Track Relay Word Bit State Change With Sequential Events Report (SER)
Example: 50P1 = 4 A; CTR = 120; Primary PU = 480 A
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Event Reporting
• Helpful in fault analysis
• Relay collects 15-cycle event report when ER = R_TRIG 50P1P
• HIS command text
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Summary
• Microprocessor-based relays create phasors from sinusoid (waveform) input
• Relay Word bits control relay I/O
• Microprocessor-based relays offer many troubleshooting and fault analysis tools
• SELOGIC control equations provide programming flexibility to create virtual control circuits
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Questions?
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Copyright © SEL 2008
Protection Basics: Overcurrent Protection
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Fast Protection Minimizes
• Temperature rise
• Mechanical damage from magnetic forces
• Voltage sag
• Transient stability issues
• Shock and arc-flash hazards
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Understand Basic Protection Principles
• Overcurrent (50, 51, 50N, 51N)
• Directional overcurrent (67, 67N)
• Distance (21, 21N)
• Differential (87)
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Overcurrent Relays Protect Radial Lines
=+ +LOAD
Source Line LOAD
EIZ Z Z
=+FAULT
Source Line
EIZ m• Z
IFAULT >> ILOAD
Relay Load
Im
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Relay Operates When Current Magnitude Rises Above Threshold
125 Vdc
TC
Overcurrent Relay(+)
(–)
52a
I
Circuit Breaker Trip Coil and Auxiliary Contact
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Evolving Protective Relay Designs
• Electromechanical relays
• Electronic analog relays – solid state (transistors, integrated circuits)
• Microprocessor-based relays – digital or numeric
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How Do Instantaneous Relays Work?
ContactsCoil
Armature
Hinge
Contacts
CoilIron Core
Adjustable Stop
Contacts
Moving Cup or Cylinder
Magnetic Core
Electromagnet
Coil 2
Coil 1
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Plotting Electromechanical 50 Elements Time vs. Current Curve
Adjustable
t
IIpickup
toperate < 1.5 Cycles
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Digital Overcurrent Relay Block Diagram
Microprocessor
Analog Input Subsystem
Operation SignalingDiscrete
Input Subsystem
Discrete Output Subsystem
===
===
===
===
Tripping Outputs
Communications Ports
A / D
ROM / PROMRAM EEPROM
}
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Digital Relays Use Sampled Signals
∆t = Sample Interval
Present Sample
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Advantages of Digital 50 Elements
• No contact chatter with alternating currents
• Not affected by dc offset
• Reset-to-pickup ratio close to one
• Resistant to misoperation due to mechanical shock
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-5 -6 -7 -8 -9 1.0
Anatomy of Induction Disc
Overcurrent Relays
Time Dial
Spring
Disc
Main Core
Permanent Magnet
Main Coil,NT Turns
Moving Contact
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Operating torque > spring torque
Pickup condition
Pickup set by changing number of turns (TAP)
Induction Disc Operation Condition
pu s e s TI T K T K / N′= =
2e sK I T≥
2e pu sK I T≥
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Induction Disc Relay Dynamics
Acceleration Torque
Ta = Top – Tpm – Ts – Tf
θ
θF
MC
SC
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High Current Can Damage Equipment Thermal Damage Curve
t
IIRated Idamage
Damage Curve
Time vs. Current Plot
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• Displacement of moving contact is adjustable
• Time dial sets total movement required to close contact
Changing Induction Disc Operation Time
Adjustment of Time Curve t
IIpickup
Adjustable
Time Dial
Damage Curve
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Select Overcurrent Relay Curve
Curve shape not adjustable for
induction disc relays
100
1
0.1
0.011
10
10
Curve Comparison for TDS = 1
Multiples of Current Pickup
Tim
e (s
) Moderately Inverse
Inverse
Very Inverse
Extremely Inverse
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• IEEE C37.112-1996
• IEC 225-4
Time-Current Characteristics Become Standard
PAt TD• B
M 1 = + −
PAt TD•
M 1=
−
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U.S. inverse curve
Family of IEEE Inverse Characteristics
OP 25.95t TD• 0.18
M 1 = + −
A = 5.95, P = 2, B = 0.18 TD=
Time vs. Current Plot
Multiples of Current Pickup
101
Tim
e (s
)
102
100
10–1
10–2
101100 102
10
321
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• Pickup current (or tap)
• Time-dial setting (TD)
• Curve shape – inverse, very inverse, etc.
Increase Flexibility With Digital 51 Relays Settings
t
IIpickup
TD
Curve Shape
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Connecting Electromechanical Overcurrent Relays
52
50 / 51 50 / 51 50 / 51 50N / 51N
abc
Residual Current
Īa
ĪbĪc 3Ī0
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Residual current for balanced load or
three-phase faults
Residual current for ground fault
Digital Relays Calculate Residual Current
IC
IB
IA
A B C 0 GI I I 3I I+ + = =
3I0 = IG
A B C 0 GI I I 3I I 0+ + = = =
IC
IB
IA
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Using Zero-Sequence CT for Ground Fault Protection
Zero-sequence or core-balance CT 52
ABCCurrent Inputs
IA
IB
IC
IN
INCOM
INCOM
INCOM
INCOM
Photo courtesy of NEI Electric Power Engineering
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High Residual Current Due to CT Saturation
• Residual settings must be higher than elements operating from zero-sequence CTs
• Residual elements may not be appropriate for motors
• Zero-sequence CTs not subject to this problem
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15,000 HP Motor Trips on Start
50G
50N
49800/5
Numerical Relay
50/5IN
IG
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What Are Negative-Sequence Quantities?
• Unbalanced load
• Rolled phases
• Open phases
• Unbalanced faults
22 A B C3I I a I aI
where a 1 120= + +
= ∠ °
PositiveSequence
NegativeSequence
IC
IB
IA
IC
IA
IB
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Negative-Sequence Element Response
Three-Phase Faults
Relay
52
I2, IPhase
Fault
BI 1 120= ∠ − °AI 1 0= ∠ ° CI 1 120= ∠ °
2 A3I I= + +2Ba I CaI
1 120 •1 120∠ ° ∠ °1 240 •1 120∠ ° ∠ − °1 00
= ∠ °=
+ +
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Negative-Sequence Element Response Phase-to-Phase Faults
Relay
52
I2, IPhase
Fault
BI 1 0= ∠ °AI 0= CI 1 180= ∠ °
1 120 •1 180∠ ° ∠ °1 240 •1 0∠ ° ∠ °01.73 – 90
== ∠ °
+ +
2 A3I I= + +2Ba I CaI
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Maximum Load vs. Minimum Short Circuit
Relay
R
Phase Relay Maximum Reach
3-Phase Fault CurrentPhase-to-Phase Fault Current
I
d
IPUILOAD
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Sensitive Protection With Negative-Sequence Elements
Relay
R
Reach of Conventional Phase Relaysb-c fault, 3I2
b-c fault, phase current
I
d3I2 PU
ILOAD
Reach of Negative-Sequence
Element
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Coordinating Negative-Sequence Elements
52
F
R
51F, 51QF
Feeder Relay
IF IR51R
Phase 51, no 51Q
Line Recloser
FeederBus
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Traditional Phase Coordination Plus Negative Sequence
51F
310 2 4 5 7 100 2 3 4 5 7 1000 2 3 4 5 7 10000 2 3 4 5 70.1
0.2
0.30.40.50.7
1
2
3457
10
20
SECONDS
CURRENT (A)
51R51EP Equivalent Phase
Element With Low Pickup
IPU-EIR IF
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Set Negative-Sequence Element Pickup
Negative-sequence element is faster and more sensitive than phase overcurrent element for
phase-to-phase faults
51Q pickup (51EP pickup) 3 •=
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Protection Plus …
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Questions?
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Copyright © SEL 2013
Transformer Protection Basics
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Differential Protection Is Easy in Theory
Kirchhoff’s Current Law (KCL): n
kk 1
I 0=
=∑
I1
I2 I3
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Current In = Current Out
No Relay Operation if CTs Are Considered Ideal
Protected Equipment
50
CT CT
External Fault
IOP = 0
Balanced CT Ratio
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Operate Current Flows
Relay Operates
Protected Equipment
50
CT CT
Internal Fault
IOP > ISETTING
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Differential Scheme Objective
• Provide security during through faults
• Operate fast for internal faults
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I1
I2 I3
I1
I2 I3
Transformer Compensation
I1
I2 I3
Transformer Compensation
Transformer Energization
I1
I2 I3
Transformer Compensation
Transformer Energization
CT Saturation
What Makes Differential Protection Challenging?
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Examine CT Saturation Challenges
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Unequal CT Performance Problems
Protected Equipment
50
CT CT
External Fault
IOP ≠ 0
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Unequal CT Saturation
Current at LeftCurrent at Right
Differential Current
Sec
onda
ry A
mpe
res
Cycles
–200
–150
–100
–50
0
50
100
150
200
0 1 2 3 4 5 6
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Possible Scheme – Percentage Differential Protection Principle
Protected Equipment
CTR CTR
Relay (87)
OP S R
S RRT
I I II I
k • I k •2
= +
+=
Compares:
ISP
IS IR
IRP
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Differential Element
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Differential Characteristic Basics
Relay Operates When:
OP RT PUI k • I I≥ +
For ExternalFault WithSaturated CT
OperateRegion
RestraintRegion
IRT
IPU
IOP
IOP
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Percentage Differential Relays IOP Versus IRT
PowerTransformer
W1 W2
DifferentialRelay
CT1 CT2IW1 IW2
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Dual-Slope Characteristic IOP
IRT
Unrestrained Pickup
Minimum Pickup
Slope 1–2 Transition
(Multiples of Tap)
(Mul
tiple
s of
Tap
)
Slope 1
Slope 2Operate Region
Restraint Region
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How to Set Slope Characteristic Settings
• Load tap changer (10%)
• No-load tap changer (5%)
• Measuring relay error (< 5%)
• CT errors (1 to 10%)
• Transformer excitation (3 to 4%)
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SEL-387 / SEL-787 Logic
SEL-387 /SEL-787
HR / HB2nd and 4th
DIFFO87P
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IOP (IRT)2
1.51
0.50
1 2 3 4 5 6 7 8 9 100IRT
2.53
SEL-387 / SEL-787 Slope
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Examine Transformer Compensation Challenges
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Transformer Connection Compensation Phase Shift (Degrees) Connections
0 Yy0 Dd0 Dz0 30 lag Yd1 Dy1 Yz1 60 lag Dd2 Dz2
120 lag Dd4 Dz4 150 lag Yd5 Dy5 Yz5 180 lag Yy6 Dd6 Dz6 150 lead Yd7 Dy7 Yz7 120 lead Dd8 Dz8 60 lead Dd10 Dz10 30 lead Yd11 Dy11 Yz11
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( )( )a b 2 1I I N / N−
( )( )b c 2 1I I N / N−
( )( )c a 2 1I I N / N−
aI
bI
cI
N1 : N2
Traditional Compensation Method CTR1
( )( )c a 2 1 1I I N / N / CTR−
R3
R2
R1( )( )b c 2 1 1I I N / N / CTR−
( )( )a b 2 1 1I I N / N / CTR−
( )c a 2I I / CTR−
( )b c 2I I / CTR−
( )a b 2I I / CTR−
CTR2
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Compensation With Digital Relays
• Current magnitude and phase shift compensation
• Set relay according to transformer characteristics
• Consider all possible connections
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Tap Compensation
where:
C = 1 for wye-connected CTs
C = for delta-connected CTs 3
=LL
MVA •1000 • CTAP3 • KV • CTR
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Simpler and Better Connections
Winding 1 Winding 2A
H2
H1 aX2
X1
H1
H2H3
X1
X3
X2
IAW1IBW1ICW1
IAW2IBW2ICW2
BC
bcH3 X3
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DABY Transformer and CT Connection Compensation
H1
H2H3
1Tap1
Y
87
1Tap2
DAB
Y Y
X1
X3
X2
≡DABY Dy1
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Wye Connection Compensation
IAW11
Tap1
IBW11
Tap1
1Tap1
ICW1
Y
= IAW1I1W1CTap1
= ICW1I3W1CTap1
= IBW1I2W1CTap1
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DAB Connection Compensation
IAW21
Tap2
IBW21
Tap2
1Tap2
ICW2
DAB
( )−=
IAW2 IBW21I1W2C •Tap2 3
( )−=
ICW2 IAW21I3W2C •Tap2 3
( )−=
IBW2 ICW21I2W2C •Tap2 3
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Compensation Matrices
IAWnIAWnC
M1M2
M3
M4
M5M6M7
M8
M9
M10
M11M12
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SEL-387 Compensation Method
• [CTC(m)]: 3 x 3 matrix
• m = 0, 1,…12 ♦ m = 0: identity matrix (no changes)
♦ m ≠ 0: remove I0; compensate angles
♦ m = 12: remove I0; no angle compensation
[ ]IAWnC IAWnIBWnC CTC(m) • IBWnICWnC ICWn
=
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Differential Element Operate and Restraint Quantities
I2
I1IW1
IW2
IW1'
IW2'
1Tap1
1Tap2
Transformer / CT Connection Compensation
Transformer / CT Connection Compensation
1 2I I+ IOP(Multiples of Tap)
1 2I I2+ IRT
(Multiples of Tap)
+
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Examine Transformer Inrush Challenges
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0 1 2 3 4 5 6 7–50
0
50
100
150
200
250
300
Cycles
Prim
ary
Cur
rent
(A)
Phase C Inrush Current Obtained From Transformer Testing
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Inrush Current Has High Second Harmonic
1 2 3 4 5 6 70
50
100
Fundamental Frequency Magnitude2nd Harmonic Magnitude
Prim
ary
Cur
rent
(A)
Cycles
1 2 3 4 5 6 70
20
40
60
80
Cycles
Per
cent
age
of
Fund
amen
tal
2nd Harmonic Percentage
2nd Harmonic Block Threshold
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Internal Faults Versus Inrush Harmonic-Based Methods
• Harmonic blocking
• Harmonic restraint
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Inrush Conditions – Blocking
Operate Region
Restraint Region
Slope 2
Slope 1
IRT
Operate Point
IOP
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Inrush Conditions – Restraint
IOP
Operate Region
Operate Point
Slope 1
Slope 2Restraint Region
IRT
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Conclusions
• Apply differential element Slope 2 to compensate for CT saturation
• Set current compensation for phase and magnitude differences across transformers
• Use harmonic blocking and restraint to prevent differential element assertion during inrush
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Questions?
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Copyright © SEL 2013
Induction and Synchronous Motor Protection Recommendations
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Induction Motor Protection
• Phase overcurrent (50 / 51)
• Ground overcurrent (50G / 50N / 51G / 51N)
• Voltage (27 / 59)
• Current unbalance (46)
• Differential (87)
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Induction Motor Protection
• Phase sequence (47)
• Resistance temperature device (RTD) thermal (49R)
• Thermal overload (49)
• Load-loss / load-jam (37)
• Starts per hour, time between starts (66)
• Antibackspin
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Synchronous Motor Protection
• Induction motor protection elements
• Loss-of-excitation (40)
• Loss-of-synchronism (78)
• Field ground fault (64F)
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Phase Overcurrent Protection (50 / 51)
Ground Overcurrent Protection (50G / 50N / 51G / 51N)
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Phase Overcurrent Protection
• Phase overcurrent devices detect phase-to-phase and three-phase faults within motor windings and on feeder cables
• Failure to clear fault quickly causes ♦ Increased motor conductor or feeder
cable damage
♦ Stator iron damage
♦ Prolonged system voltage dips
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Settings Considerations
• Do not use relay phase fault protection with fused motor contactors
• Avoid tripping on motor inrush ♦ Symmetrical locked rotor current
♦ Subtransient component
♦ Asymmetrical (dc offset) component effectively removed from element by microprocessor-based relay
• Coordinate with upstream protection
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Optimum Two-Level Phase Overcurrent Protection
• Level 1 settings ♦ Phase overcurrent pickup at 1.2 to 1.5 • LRA
♦ Overcurrent delay at 6 to 10 cycles to ride through subtransient inrush
• Level 2 settings ♦ Phase overcurrent pickup at 1.65 to
2.0 • LRA
♦ Phase overcurrent delay at 0
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Ground Overcurrent Protection
• Ground overcurrent devices detect faults involving ground within motor windings and on feeder cables
• Failure to clear these faults quickly causes ♦ Increased motor conductor or feeder cable
damage
♦ Stator iron damage
♦ Prolonged system voltage dips
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Ground Fault Protection Depends on System Grounding Design
• Solidly grounded systems have high phase-to-ground fault currents
• Resistance-grounded systems limit phase-to-ground fault current
• Limiting current limits damage due to ground faults but requires increased relay sensitivity
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CT Connections
MPR
50 50G
Motor
3
Solidly / Low-Resistance Grounded Source
MPR
50 50N
Motor
3
Solidly / Low-Resistance Grounded Source
1
MPR
50
50N
Motor
3
Low- / High- Resistance Grounded
Source
1
(a) (b)
(c)
MPR = motor protection relay
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Solidly Grounded Systems
• Ground fault currents in solidly grounded systems can approach phase fault levels
• Ground fault protection for these systems is usually provided by residual protection, either calculated by relay or by external CT residual connection to IN input
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Settings Considerations
• Residual protection set to coordinate with upstream devices
• False residual current can occur because of CT saturation
• Level 1 residual overcurrent pickup set at 0.4 to 0.6 • FLA
• Level 1 residual overcurrent delay set at 0.2 s to ride through false residuals
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Low-Resistance Grounded Systems
• Ground fault currents limited to 100 to 1000 A
• Ground faults cleared in < 10 s ♦ Minimize fault arc damage
♦ Protect grounding resistors from thermal damage
• Ground fault protection for motors is usually instantaneous or definite-time
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Settings Considerations
• Residual elements ♦ Set Level 1 residual overcurrent pickup at
0.4 to 0.6 • FLA
♦ Set Level 1 residual overcurrent delay at 0.2 s to ride through false residuals upon starting
• Ground elements with core-balance CT ♦ Set Level 1 neutral overcurrent pickup at
5 to 20 A primary current
♦ Set Level 1 neutral overcurrent delay at 0.1 s
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High-Resistance Grounded Systems
• Typically found on low-voltage systems but sometimes used on medium-voltage systems
• Limit phase-to-ground fault currents to < 10 A
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High-Resistance Grounded Systems
• Single-phase-to-ground fault produces an alarm only – ground can then be located and cleared in controlled manner
• This system requires core-balance CT for sensitivity
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Settings Considerations
• Set Level 1 neutral overcurrent pickup at 25 to 50% of available ground fault current
• Set Level 1 neutral overcurrent delay at 2 to 5 s
• Program neutral overcurrent for alarm only
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Ground Overcurrent Settings Considerations
Source Grounding
Available Ground Fault
Current
CT Connections
Relay Function
Setting Considerations Delay
Solidly grounded
Can approach phase fault
levels
a 50G 40 to 60% • FLA 0.2 s
b 50N
Low-resistance grounded
100 to 1000 A
a 50G 40 to 60% • FLA 0.2 s
b 50N
c 50N 5 to 20 A (primary) 0.1 s
High-resistance grounded
< 10 A c 50N
25 to 50% of available
ground fault current
2 to 5 s
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Undervoltage Protection (27)
Overvoltage Protection (59)
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Undervoltage
• Running motors for prolonged periods at less than rated voltage can cause overheating
• Undervoltage tripping can clear a bus after complete loss of voltage – prevents simultaneous restart of connected motors when voltage returns
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Settings Considerations
• Motor standards require motors capable of continuous operation at 90% of motor-rated voltage per motor specification
• Undervoltage protection should not trip motors because of voltage dips caused by faults or motor starts
• Undervoltage protection is not usually set to trip motors during fast bus transfers
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Settings Considerations – Trip
• Set undervoltage trip pickup slightly under minimum rated operating voltage
• Set undervoltage trip delay longer than ♦ Maximum time required for fast bus transfers
♦ Maximum fault-clearing time for faults that would cause voltage to drop below pickup
♦ Starting time for any motor on bus if motor starts will cause bus voltage to drop below undervoltage trip pickup
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Settings Considerations – Alarm
• Set undervoltage alarm level at or slightly above motor minimum rated operating voltage
• Set undervoltage alarm delay longer than ♦ Maximum time required for normal bus
transfers
♦ Maximum fault-clearing time for faults that would cause voltage to drop below pickup
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Overvoltage
Running motors for prolonged periods at greater than rated voltage can cause loss of
insulation life or insulation failure
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Settings Considerations
• Motor standards require that motors be capable of continuous operation at 110% of rated voltage
• Overvoltage alarming is generally used in favor of overvoltage tripping
• If overvoltage tripping is applied, consider using a time delay
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Current Unbalance Protection (46)
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Current Unbalance
• Caused by ♦ Unbalanced voltages
♦ Single phasing
• Creates negative-sequence current flow in rotor ♦ Heating effect at full load is same as locked
rotor condition
♦ Rotor overheats
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Negative-Sequence Heating
• Negative-sequence current causes double-frequency flux in rotor
• Rotor current occupies one-sixth of cross-section area of bars, causing overheating at periphery
Rotor Bar Status
UnbalanceS′ = 2 – S
RunningS′ = S = 0.01
StartingS′ = S = 1
S = Slip S′ = Rotor Current Frequency
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Current Unbalance
• Biases thermal overload element
• Is detected by ♦ Thermal model under moderate conditions
♦ Current unbalance elements under severe conditions
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Settings Considerations
• Trip ♦ Set current unbalance trip pickup to 15%
♦ Set current unbalance trip delay to 5 s
• Alarm ♦ Set current unbalance alarm pickup to 10%
♦ Set current unbalance alarm delay to 10 s
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Differential Protection (87)
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Differential Protection
• Phase differential (large machines)
• Self-balancing (87M) differential (machines rated 1000 hp and up)
• Detection of phase faults and possibly phase-to-ground faults depending on system grounding
87
M52CT
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Phase Percentage Differential (87R)
O = operating coil R = restraining coil
R
RO
R
R
R
R
O
O
52
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Percentage Restraint (87) Differential Characteristic
IRT(Multiples of TAP)
(Mul
tiple
s of
TA
P)
Slope 1 to 2 Transition
Slope 2 60%
Slope 1 25%
IOP
Unrestrained Pickup
Minimum Pickup
Restrain
Operate
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Self-Balancing (87M) Differential Protection
Core-balance CT
Neutral-side CT with IA, IB, and IC connected
Neutral-side CT with IA, IB, and IC not connected
A
CB Motor
IA87 IC87IB87
A
CB Motor
IA87
IC87
IB87
IA
IB
IC
A
CB Motor
IA87
IC87
IB87
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Phase Sequence Protection (47)
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Phase Sequence
• Also referred to as phase reversal
• Operates on voltage or current
• Checks that phase rotation signals applied to relay match phase rotation setting
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RTD Thermal Protection (49R)
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RTD Thermal Element Detects Loss-of-Cooling Efficiency
• Cooling pump failure
• Inlet air reduction
• Detection using direct temperature measurement (RTDs)
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Thermal Overload Protection (49)
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Thermal Protection
• Running overload
• Starting / stalling
• Running unbalance
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Running Protection
• Load greater than service factor causes excessive I2R heating in stator windings
• Unbalance current causes excessive heating in rotor
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Thermal Model Protection
• Electromechanical relays using bimetal and solder-pot elements do not match motor time constants
• Microprocessor-based relays can match thermal properties identified by motor data and can monitor RTDs embedded in stator winding
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Integrated Motor Thermal Protection
• Provides locked rotor, overload, and unbalance protection
• Defines operating characteristics by motor characteristics
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Bimetallic Overload Element
• I2R heating opens contacts to trip motor
• Reset characteristic not related to motor
• This element has ♦ Uncertain response to unbalance
♦ Sensitivity to cabinet ambient temperature
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Motor First Order Thermal Model
Cth = equivalent thermal capacityRth = equivalent thermal resistanceθ = temperature rise with respect to ambient
Cth Rth θ
Motor
f (I1,I2)
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Motor Thermal Image or Thermal Model Relays
• Use single-state model
• Use double-state model ♦ Starting
♦ Running
Relay
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Single-State Thermal Model Relay Principle
Cth Rth θa • I2
+–
Tripθtrip
θ
Heating Cooling
Relay
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Two-State Thermal Model Protection Element
θ
Relay
Cth Rth θ
2 21 23 • (I I )+
2 21 2(I 5 • I )+
For I1 > ILIM
For I1 < ILIM
Running State
Start / Stall State
C′th R′th
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Thermal Model Relay Starting State
• If Cth is fixed, determine only one setting, θtrip
• Use locked rotor safe stall times
θ2 21 23 • (I I )+
Start / Stall State
+–θtrip
TripRelay
Cth
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Thermal Model Relay Running State
• Determine settings: Cth, Rth, θtrip
• Use motor damage curves to fit model
θ2 21 2(I 5 • I )+
Running State
+–θtrip
Trip
Cth Rth
Relay
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High-Inertia Starting
• High-inertia loads, such as induced draft fans, require long acceleration times
• Starting time may exceed locked rotor limit
10 100 1,000
100
10
1
0.1
0.01
1,000
Sec
onds
Amperes
M-S
tart
M
Motor Locked
Rotor Limit
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Traditional Solution: Speed Switch Proximity Probe and Rotating Disk
• Proximity probe is magnetic
• Rotating disc uses laser
• Safe stall time setting is increased to accommodate acceleration – supervised by detection of shaft rotation (25 to 35% of speed) within set time limit
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Rotor Design
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Rotor Resistance Variation
Skin Effect Deep Bar Effect
Skin effect
Deep bar effect
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Linear Approximation of Slip-Dependent Rotor Resistance and Reactance
XM
RN
XN
RM
01Slip
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Steinmetz Electrical Model
( )r1 SR S
S−
jXr(S) Rr(S)
Ir
jXmV
jXS RS
IS
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Slip-Dependent Rotor Resistance
• Motor heating is caused by watt loss in rotor and stator resistance
• Rotor resistance decreases from high locked rotor value to low value at rated speed (shown in Steinmetz model)
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Positive- and Negative-Sequence Rotor Resistances Are Linear
Functions of Slip
Where:
RM = resistance at locked rotor
RN = rotor resistance at rated speed
S = slip
( )( )( )
1 M N N
2 M N N
R R R S R
R R R 2 S R
= − + = − − +
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RM and RN Defined
• RM and RN are defined by ♦ Locked rotor current IL
♦ Locked rotor torque LRQ
♦ Synchronous speed ωsyn
♦ Rated speed ωrated
• In Steinmetz model, mechanical power PM is 2
M r1 SP • I R
S−
=
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Solving for Rotor Resistance
Torque is power divided by speed
Solving for rotor resistance Rr
− = = = = ω − −
22M M r
M rP P I R1 S 1Q I R
1 S S 1 S S
Mr 2
QR SI
=
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Substitute Known Values
At locked rotor, S = 1 and QM = LRQ
S at rated speed is SN, I = 1 and QM = 1
r M 2L
LRQR RI
= =
N N
syn ratedN
syn
R S
R
=
ω − ω=
ω
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Locked Rotor Case
Motor Current
Motor Torque
Tem
pera
ture
(U/U
L), R
otor
(R •
0.01
)
Time (s)
1.0
0.8
0.6
0.4
0.2
0
I2t Rotor Temperature
0 5 10 15 20 25 30
RM = RN
10
8
6
4
2
0
Cur
rent
(pu)
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Derive Slip Using Voltage and Current
When V1 and I1 are monitored, apparent positive-sequence
impedance looking into the motor is
= + = 1
1
VZ R jXI
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Motor Impedance
From the Steinmetz model
+ = + +
+ +
rr m
S Sr
r m
R jX • jXSZ R jX R jX jXS
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Motor Impedance
Expanding the equation
( )
( )
+ + + = + +
+ +
22r rm m r m r m
S S 22r
r m
R RX j X X X X XS S
Z R jXR X XS
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Motor Impedance
The real part of Z is
( )
2rm
S 22r
r m
R XSR R
R X XS
= + + +
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Motor Impedance
Divide numerator and denominator by (Xm)2
( )= +
+ +
r
S 22r mr
2 2m m
2r
2m
RSR R
X XR 1S X X
R 1But is negligibleS X
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Motor Impedance
2r m
m
rS
Let
X XAX
ThenRR R
A • S
+=
= +
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Derive Slip
Consider only the real part of motor impedance
rS
RR RA • S
= +
Next, substitute the linear equation for Rr+ in terms of slip, and solve for slip
( ) ( )N
S M N
RSA R R R R
=− − −
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Slip-Dependent Rotor Resistance
Positive-sequence rotor resistance
Negative-sequence rotor resistance
[ ]1 M N NR (s) (R R )S R= − +
[ ]2 M N NR (s) (R R )(2 S) R= − − +
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Motor Current and Rotor Temperature
Rotor Temperature
Motor Current
0 4 8 12 16 20
10
8
6
4
2
0
Cur
rent
(pu)
Tem
pera
ture
(pu
of li
mit)
1.0
0.8
0.6
0.4
0.2
0
Time (s)
Rr = (RM – RN)S + RN
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Constant Resistance Model Accuracy
Rotor Temperature
Motor Current
0 4 8 12 16 20
10
8
6
4
2
0
Cur
rent
(pu)
Tem
pera
ture
(pu)
1.0
0.8
0.6
0.4
0.2
0
I2t Relay
Time (s)
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Load-Loss / Load-Jam Protection
• Detects load loss on undercurrent or low power
• Trips for safety if load decouples
• Detects load jam using definite-time overcurrent (armed only when motor is running)
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Frequent Starts
• Repetitive intermittent operation can cause mechanical stressing of stator or rotor end windings
• Microprocessor-based relays provide for fixed time intervals between starts or limit the number of starts per hour
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Frequent Starts or Intermittent Operation
• Starts-per-hour protection limits the number of motor starts in any 60-minute period
• Minimum time between starts prevents immediate restart
• Settings developed using motor data sheet
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Frequent Starts or Intermittent Operation
• Induction motors, initially at ambient, usually allow two successive starts – coasting to reset between starts
• One start occurs with motor initially at operating temperature
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Antibackspin Protection
• Pump motors can spin backward for a short time after motor shutdown
• Restart during backspin period is dangerous (prevent high torque with premature starts)
• Simple lockout delay follows trip
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Synchronous Motor Protection Loss of Excitation
• Causes ♦ Operator error
♦ Excitation system failure
♦ Flashover across slip rings
♦ Incorrect tripping of rotor field breaker
• Consequences ♦ Motor operates as induction motor
♦ Motor draws reactive power from system
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Loss-of-Excitation Detection
Elements detect excessive VAR flow into the motor
• Impedance
• Power factor
• VAR
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Synchronous Motor Protection Loss of Synchronism
• Causes
♦ Excessive load
♦ Reduced supply voltage
♦ Low motor excitation
• Consequences
♦ High current pulses may exceed three-phase faults at motor terminals
♦ Motor operates at different speed
♦ Watts flow out and VAR flows into motor
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Loss-of-Synchronism Detection
• Element usually responds to variation on motor power factor angle or reactive power
• Impedance relays available for loss-of-excitation detection may also detect loss of synchronism
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Importance of Field Ground Detection
• Single point-to-ground fault in field winding circuit does not affect motor operation
• Second point-to-ground fault can cause severe damage to machine ♦ Excessive vibration
♦ Rotor steel and / or copper melting
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Rotor Ground Detection Methods
• Voltage divider
• DC injection
• AC injection
• Switched dc injection
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Switched DC Injection Method
BrushesExciter
Measured Voltage
Grounding Brush
Rotor and Field WindingField Breaker
R1
R2
–
+
Rs
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Questions?