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8/16/2019 C184 Protection Report GUDDU R1
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C184 Protective Relaying Setting Report to:
GE Power Systems-Power Plant SystemsDepartment for
HARBIN POWER ENGINEERING CO. LIMITED
GUDDU – 747MW (GROSS) CCPP
SADIQABAD SIND, PAKISTAN
Generators: 339X224, 339X225
Prepared by:
Mike Reichard, P.E.GE - ENERGY CONSULTING
Revision 16 May 2013
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g GE Energy Foreword
This document was prepared by General Electric International, Inc. through its EnergyApplications and Systems Engineering (EA&SE) department in Schenectady, NY. It issubmitted to GE Power Plant Systems Department (GE PPSD). Technical andcommercial questions and any correspondence concerning this document should bereferred to:
Mike ReichardEnergy Consulting
General Electric International, Inc.Building 53, Room 302G
Schenectady, New York 12345
Phone: (518) 385-2299Fax: (518) 385-5703
E-mail: [email protected]
Change List
Revision Date Change EffectedPages
Author
0 22SEP11 New Document- System and GSU data assumed all M.L. Reichard
1 6MAY13 G60: Revisions per revised GSU dataT60U: Revisions per revised GSU data, UAT CTs, GSU CTsT60T: Revisions per revised GSU data, GSU CTsC60: Revised GSU and UAT ratings
Section 1Section 2Section 3Section 4
M.L.Reichard
mailto:[email protected]:[email protected]:[email protected]:[email protected]
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g GE Energy Legal Notice
This report was prepared by General Electric International, Inc.’s Energy Applicationsand Systems Engineering (EA&SE) department as an account of work sponsored byGE GPO for the GUDDU Project. Neither GE GPO nor EA&SE, nor any person acting onbehalf of either:
1. Makes any warranty or representation, expressed or implied, with respect to theuse of any information contained in this report, or that the use of any information,apparatus, method, or process disclosed in the report may not infringe privatelyowned rights.
2. Assumes any liabilities with respect to the use of or for damage resulting from theuse of any information, apparatus, method, or process disclosed in this report.
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g GE Energy
Section Title Relay
1 GTG Primary/Backup Generator Protection GE G60A/B
2 GTG Overall Unit Protection GE T60U
3 GTG Generator Step-Up Transformer Protection GE T60T
4 GTG Bus Protection GE C60
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-40
-20
0
20
40
60
80
100
120
-40 -20 0 20 40 60 80
Backup Distance Protection, 21G60 (relay ohms)
21 G60 Generator Capabilty Curve Zt
Section 1 G60_R1 2
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a. Zt+Zs = 12.51 W sec @ 89 °
1.5Zt = 17.34 W sec @ 89 ° = F RCAb. Forward Reach (ZF) = 17.34 ohms sec.
c. Reverse Reach (ZR) = 2X'dv = -44.44 ohms sec.
90 = R RCAThe line OC is the lateral reach of the relay. For
the settings to be secure, the apparent impedance associated with an output equal to the rating
of the machine must be greater than OC.
= 61.78 W
d. Outer Right Blinder Reach (Z = 60°) = OC[1+cos(RCA)] = 54.82 ohms secondary
e. Inner Right Blinder Reach (Z = 120°) = OC[1+cos(RCA)] = 18.27 ohms secondary
f. Outer Left Blinder Reach (Z = 60°) = OC[1-cos(RCA)] = 52.19 ohms secondary
g. Inner Left Blinder Reach (Z = 120°) = OC[1-cos(RCA)] = 17.40 ohms secondary
h. Calculate the apparent impedance associated with rated load operation: 78 Settings are acceptable
Impedance of rated load = kV2/MVAG = 0.697 W pri = 76.63 W sec
I. Delay 1 time interval between outer and inner characteristics (between 60° and 120°) = 0.3 sDelay 2 is not applicable for Two Step applications.
Delay 3 time interval of the inner characteristic (between 120° and 240°) = 0.5 sDelay 4 time interval between inner and outer characteristics (between 240° and 300°) = 0.090 s
Es Eg delta V (voltage across breaker contacts)
1.0 puV @ 0° 1.0 puV@60° 1.0 puV @ -60 deg
1.0 puV @ 0° 1.0 puV@120° 1.73 puV @ -30 deg
1.0 puV @ 0° 1.0 puV@180° 2.0 puV @ 0 deg
1.0 puV @ 0° 1.0 puV@240° 1.73 puV @ 30 deg
1.0 puV @ 0° 1.0 puV@300° 1.0 puV @ 60 deg
Both 21 and 78 functions are disabled during startup and blocked for VTFF.
3. Out-of-Step (78) Relay Setting Philosophy - the application follows the approach outlined in GE technical
reference GER-3179, Out-of-Step Protection for Generators. This approach utilizes two impedance relays (OUTER
unit and INNER unit) to track the impedance locus of the generator during an out-of-step swing. The objective is to
detect that the generator is going out of step and initiate separation from the system during the first swing.
Traditionally, a 120° separation has been considered the criterion to define an out-of-step condition. The INNER unit
is set at the points at which the generator and system are 120° and 240° apart. The OUTER unit is set to avoid
tripping on stable swings, and to initiate separation when the generator voltage approaches 300° with respect to the
system. This assures that the maximum voltage angle across the breaker at the time that it opens will be 60° or less.
The impedance locus of most out-of-step swings passes through the generator step-up (GSU) transformer, or the
generator itself (relatively closer to the line-side terminals). For this reason, GER-3179 suggests that with the relay
applied at the generator terminals and polarized to look toward the system, the reverse reach into the machine should
be two to three times the generator transient reactance (X'dv). The forward reach into the system should extend well
past the high-voltage terminals of the GSU, and forward reach settings typically fall in the range of one to two times
the GSU leakage impedance.
A
B
C
O
Z forward
Z reverse
X
Figure AY
Z
Y
reverse forward AB Z Z Z )2/tan(2/
Z
Z OC
AB
Section 1 G60_R1 3
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-40
-30
-20
-10
0
10
20
30
-60 -40 -20 0 20 40 60 80
X
R
78 Protection(relay ohms)
Zf Zr Outer Inner 60 120 X'dv Zt Zs Swing Locus
Section 1 G60_R1 4
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Critical clearing time is defined as the maximal fault duration for which the generator remains transiently stable during
power swings. Two dynamic simulations were conducted: HV 3-Phase fault and generator bus fault. Time intervals at
60, 120, 240 and 300 degrees between generator and system are calculated to insure a loss-of-synchronism
condition exists. Analysis conducted using unit specifications and below pre-fault conditions. Simulation assumes all
units on line, all line in service. Note the Y-axis is the rotor angle.
Section 1 G60_R1 5
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Setting Calculation Sheet
Stator Differential Function (ANSI Device 87G)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
Generator Base Current: 12432 A
B) Relay Data
87G Relay Ranges: Pickup: 0.050 - 1.000 pu in steps of 0.001
Slope: 1 - 100% in steps of 1%
Break 1: 1.00 - 1.50 pu in steps of 0.01
Break 2: 1.50 - 30.00 pu in steps of 0.01
CT Ratio (CTR): 15,000 / 1 = 15,000 :1
C) Settings CalculationsRelay Setting Philosophy: The 87G function provides primary phase fault
protection for the generator and should be set as sensitive as possible, yet
not trip for CT errors that can occur during an external fault. Slope 1 and
pickup of 10% and 0.1 per unit respectively are recommended for this
application. Break 1 should be set marginally above the machine rating.
Break 2 should be set lower than the saturation curve kneepoint and coordinate
with the maximum generator fault current contribution.
Slope 2 should be set at 80%.
Set 87G pickup: 0.1 pu
Set 87G Slope 1: 10 %
Set 87G Break 1: 1.15 pu
Set 87G Slope 2: 80 %
Set 87G Break 2: 4.00 pu
Generator fault current contribution:4.14 pu CT current
87G
Figure 5-51 in G60 Instruction Manual
Section 1 G60_R1 6
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Setting Calculation Sheet
Stator Overload Protection (ANSI Device 51)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
Generator Base kW Rating: 274.55 MW
X"dv = 0.2 T"d = 0.031 IFG = 1803 A, FL Field
X'dv = 0.290 T'd = 0.76 IF = 626 A, NL Field
Xdv = 2.13 Ta = 0.44 IFG / IF = 2.88
ZGSU = 15.9% @ 340 MVA
B) Relay Data
51 Relay Ranges: 0.000 to 30.000 pu pickup range
0.00 to 600 TD multiplier rangeCT Ratio (CTR): 15,000 / 1 = 15,000 :1
PT Ratio (PTR): 15,000 / 110 = 136.36 :1
C) Settings Calculations
Relay Setting Philosophy: This function is stator overload protection and is set to
pickup at 115% of rated current with an IEC Type B curve characteristic at the.TDM
to coordinate with C50.13-2005 Stator Winding Short-Time Thermal Limits.
Recommended 51 pickup (IPU) = IFL *1.15 = 14297 Amperes
0.953 pu CT rating
Curve Type: IEC B Curve
Recommended Time Dial Multiplier = 0.43
Generator fault current @ 1.0 second (I) = 28238 Amperes
(per generator decrement curve) 1.88 secondary amps
51
Section 1 G60_R1 7
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Setting Calculation Sheet
Generator Unbalance Functions (ANSI Devices 46A & 46T)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
Relay Full Load Current (IFL): 12,432 Amperes
0.829 pu CT rating
Continuous Unbalanced Current (I2C) Capability: 8.0%
I22t Capability (KC): 8.0
B) Relay Data
46A Relay Ranges: Pickup: 0.00 - 100.00% in steps of 0.01Delay: 0.0 to 1000.0 seconds in steps of 0.1
46T Relay Ranges: Pickup: 0.00 - 100.0% in steps of 0.01
K-value: 0.00 - 100.00 in steps of 0.01
TMIN/TMAX/K-Reset: 0.0 - 1000.0 seconds in steps of 0.1
CT Ratio (CTR): 15,000 / 1 = 15,000 :5
C) Settings Calculations
Relay Setting Philosophy:The 46A settings are calculated slightly below (70%)the machine’s I2
2t capability. The 46T settings are calculated to operate
when the machine is operating at it’s full negative sequence current capability
to ensure tripping before damage to the stator occurs due to overheating.
Recommended 46A [STG2] Pickup Setting: 0.7 * I2C = 5.6%
Recommended 46A [STG2] Delay: 1 second
Recommended 46T [STG1] Pickup Setting: I2C = 8.00%
Recommended 46T [STG1] K-Value: 6.4
Recommended 46T [STG1] Min Operate Time: 0.001 seconds
Recommended 46T [STG1] Max Operate Time: 1000 seconds
Recommended 46T [STG1] K-Reset: 227 seconds
46A & 46T
Section 1 G60_R1 9
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0.001
0.010
0.100
1.000
10.000
100.000
1000.000
0.01 0.1 1 10 100
T ( s e c o n d s )
I2 per unit
Generator I22t Capacity vs Protection
Generator 46T 46A Open-Phase I2 Rated Continuous I2 HV Gnd Fault I2 HV P-P Fault I2
Section 1 G60_R1 10
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D) Open Phase CalculationsSimplified System :
Sequence Network - Open Phase :
Sequence Network - Open Phase (reduced) :
kVSYSTEM = 500 Ibase = 115.5 A
MVAbase = 100
1. Generator impedance at rated output converted to base values:
323 MVA 0.85 pf
Z1GEN = 0.3096 pu @ 31.79 = 0.2632 + j 0.1631 pu
Z2GEN = X2v = 0.200 pu * (MVAbase/MVAT) = + j 0.0619 pu
Z0GEN = X0v = 0.17 pu * (MVAbase/MVAT) = + j 0.0526 pu
2. GSU transformer impedance at rated capacity converted to base values:
Z1GSU H-L= 0.1588 pu * (MVAbase/MVAT) * (kVpri/kVSYSTEM)2 = j 0.0467 pu
340 MVAT Z2GSU H-L= 0.1588 pu * (MVAbase/MVAT) * (kVpri/kVSYSTEM)2 = j 0.0467 pu
Z0GSU H-L= 0.1588 pu * (MVAbase/MVAT) * (kVpri/kVSYSTEM)2 = j 0.0467 pu
3. Generator/GSU side equivalent [(GTG + GSUH-L) at base values:
Z1G = Z1GEN + Z1GSU = 0.2632 + j 0.2098 pu
Z2G = Z2GEN + Z2GSU = 0 + j 0.1086 pu
Z0G = Z0GSU = 0 + j 0.0467 pu
4. System side equivalent at base values: Z1S = 0.00025 + j 0.00384 pu
Z2S = 0.00025 + j 0.00384 pu
Z0S = 0.00025 + j 0.00384 pu
46A & 46T
Z1G
1.0 pu 0°
Z1S
Z2G Z2S
Z0G Z0S
Z1G
1.0 pu 0°
Z1S
Z2G Z2S
Z0G Z0S
Z2G Z2SZ2GZ2G Z2S
Z0G Z0SZ0GZ0G Z0S
Z1G
Z2G
Z0G
Z1S
Z2S
Z0S
ESEG= 1.0 0°
Z1G
Z2G
Z0G
Z1GZ1G
Z2GZ2G
Z0GZ0G
Z1SZ1S
Z2SZ2S
Z0SZ0S
ESEG= 1.0 0°
EG ESTGEGEG ESESTG
Section 1 G60_R1 11
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5. Z0EQ = Z0S + Z0G = 0.00025 + j 0.05055
= 0.0505 pu @ 89.7 6. Z2EQ = Z2S + Z2G = 0.00025 + j 0.11247
= 0.1125 pu @ 89.9 7. ZEQ = Z0EQ // Z2EQ = 0.00012737 + j 0.03487
= 0.0349 pu @ 89.8 8. ZTOTAL = Z1S + ZEQ + Z1P = 0.2635 + j 0.2485
= 0.3622 pu @ 43.3 9. I1 = +Vpu / ZTOTAL; where +Vpu = kVsystem/kVpri
I1 = +Vpu / ZTOTAL = 2.009 + j -1.894
= 2.761 pu @ -43.3 = 319 A @ 500 kV10. I2 = -I1 [Z0EQ/(Z0EQ+Z2EQ)] = -0.622 + j 0.588
= 0.856 pu @ 136.6 = 99 A @ 500 kV11. I0 = -I1 [Z2EQ/(Z0EQ+Z2EQ)] = -1.3868 + j 1.306
= 1.905 pu @ 136.7 = 220 A @ 500 kV12. IA = I1 + I2 + I0 = 0.0000 + j 0.0000 OPEN PHASE
13. IB = a2I1 + aI2 + I0 = -4.230 + j -0.3196
= 4.242 pu @ 4.3 = 490 A @ 500 kV14. IC = aI1 + a2I2 + I0 = 0.070 + j 4.236= 4.237 pu @ 89.1 = 489 A @ 500 kV
15. IN = IA + IB + IC = -4.1605 + j 3.9165
= 5.714 pu @ -43.3 = 660 A @ 500 kV16. Open Phase I2 = 99 A I2 @ kVSYSTEM = 3295 A @ kVG = 0.265 pu I2
12432 A Full Load
46 function time to operate for open phase = K / (I2/Inom)2 = 91.1 seconds
Summary: An open-phase condition at full load will result in 0.265 pu I2
causing the 46T function to trip in 91.1 seconds
E) HV Phase-to-Ground Fault Calculations (GSU terminal fault)1. Calculations on generator base. Z1 = X'd + Z1t, Z2 = X2g + Z2t, Z0 = Z0t
I0 = 1Vpu / (Z1+Z2+Z0) = I1 = I2= 1.06 pu I2 = 13189 A
46 function time to operate for a phase-to-ground fault = K / (I2/Inom)2 = 5.7 seconds
Summary: A HV phase-to-ground fault condition will result in 1.06 pu I2
causing the 46T function to trip in 5.7 seconds
F) HV Phase-to-Phase Fault Calculations (GSU terminal fault)1. Calculations on generator base. Z1 = X'd + Z1t, Z2 = X2g + Z2t
I2 = 1Vpu / (Z1+Z2) = -I1 = 1.26 pu I2 = 15702 A
46 function time to operate for a phase-to-phase fault = K / (I2/Inom)2 = 4.0 seconds
Summary: A HV phase-to-phase fault condition will result in 1.26 pu I2
causing the 46T function to trip in 4.0 seconds
46A & 46T
Section 1 G60_R1 12
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G) 2% Phase HV Phase Unbalance CalculationsThe analysis assumes the system 2% phase HV unbalance is significantly stronger than the generator,
thus the system is an infinite source.
1. 2% Phase HV Unbalance:
Va = 1.00 pu A = 0 = 1.0000 + j 0.0000Vb = 1.02 pu B = -120 = -0.5100 + j -0.8833Vc = 1.00 pu C = 120 = -0.5000 + j 0.8660Vn = 0.02 pu N = 60 = -0.0100 + j -0.0173
HVs Line to Neutral Voltage = 288.667 kV
Va = 288.7 kV A = 0 = 288.6669 + j 0.0000Vb = 294.4 kV B = -120 = -147.2201 + j -254.9928Vc = 288.7 kV C = 120 = -144.3335 + j 249.9929
V0 = 1.924 kV 0 = 240.00 = -0.9622 + j -1.6666V1 = 290.6 kV 1 = 0.00 = 290.5914 + j 0.0000V2 = 1.924 kV 2 = 120.00 = -0.9622 + j 1.6666
2. GSU Zt at Generator MVA base:
Zt = 0.1588 pu @ 340 MVA 500
Zt @ MVAG = Zt * (MVAG/MVAT) = 0.1509 pu = Z2t
3. Generator Negative Sequence Impedance (unsaturated) at Generator MVA base:
X2i @ MVAG = 0.25 pu
4. I2 calcaulation:
V2 pu = V2actual / (kVs/3) = 0.0067 puZ2 total = Z2t + X2i = 0.4009 pu
I2 = V2 / Z2 = 0.0166 pu = 1.66%Continuous Unbalanced Current (I2C) Capability: 8%
46A & 46T
Section 1 G60_R1 13
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Setting Calculation Sheet
Undervoltage Function (ANSI Device 27P)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
B) Relay Data
27 Relay Ranges: 0 - 3.0 per unit Volts pickup range
0.00 - 600.00 second delay time range
Inverse Time Characteristic or Definite Time
PT Ratio (PTR): 15,000 / 110 = 136.36 :1
C) Settings Calculations
Relay Setting Philosophy: The 27P function is set to alarm for an undervoltagecondition. Set 27P function alarm for 80% nominal voltage in 10 seconds.
This function will be blocked for VTFF and startup.
Recommended Mode = Ph-to-Ph voltage measurement
Recommended 27P pickup = 0.8 pu
Recommended time delay = 5.00 seconds
Recommended curve characteristic = definite time
Recommended Minimum Voltage = 0.0 pu
27P
Section 1 G60_R1 14
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Setting Calculation Sheet
Overvoltage Function (ANSI Device 59)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
B) Relay Data
59 Relay Ranges: 0.000 to 3.000 pu pickup range
0.00 to 600.00 second pickup/reset time delay range
PT Ratio (PTR): 15,000 / 110 = 136.36 :1
C) Settings Calculations
Relay Setting Philosophy: The 59 function should be set with a safe marginbelow the overvoltage capability of the generator. Set time delay to coordinate
with the 24T function. This function will be blocked for VTFF and startup.
Nominal voltage = 110.0 volts
Recommended 59 pickup = 1.2 per unit nominal volts
= 132.0 volts
Recommended 59 Time Delay = 3.0 seconds
Recommended 59 Reset Delay = 0 seconds
59
Section 1 G60_R1 15
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1
10
100
1000
100% 110% 120% 130% 140% 150% 160% 170%
T ( s e c o n d s )
% V Nominal
Overvoltage Protection - 59
59G
24T
Section 1 G60_R1 16
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Setting Calculation Sheet
Overexcitation Function (ANSI Device 24)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
B) Relay Data
24T Relay Ranges: DT, Inverse A-C, Flexcurve A,B curve settings
0.80 to 4.00 per unit Volts/Hertz pickup range
0.05 to 600.00 TD multiplier range
0 to 1000.0 second T-Reset settings range
PT Ratio (PTR): 15,000 / 110 = 136.36 :1
C) Settings CalculationsRelay Setting Philosophy: The generator is capable of continuous operation
at 1.05 per unit V/Hz. Corrective action should be taken for operation of the
machine above 105% V/Hz, which is not sanctioned by GE. The 24T setting
follows the recommendations of GE’s generator technical reference GEK75512F,
trip for >118% V/Hz at 2 sec., and trip for
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24
1
1.05
1.1
1.15
1.2
1.25
1.3
1.35
1.4
1 10 100 1000 10000
V / H z p e r u n i t
T (seconds)
V/Hz Protection
Transformer 24T Exciter Limiter 24A
Section 1 G60_R1 19
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Setting Calculation Sheet
Loss of Field Functions (ANSI Devices 40-1 & 40-2)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
XDV = 2.13 per unit
X’DV = 0.290 per unit
B) Relay Data
40-1,2 Relay Ranges: 0.10 - 300.00 W Center & Radius0.00 - 65.535 seconds Time Delay
CT Ratio (CTR): 15,000 / 1 = 15,000 :1
PT Ratio (PTR): 15,000 / 110 = 136.364 :1
CTR/PTR: 110.00
C) Settings Calculations
Relay Setting Philosophy: During loss of excitation, these relay functions will
detect vars. from the system into the generator. The offset of X’DV / 2 is to
avoid misoperations during system faults. The 40-1 circle is set at 1.0 per unit
ohms (on generator base) in order to detect short circuited fields at full and
moderate load, while not tripping for stable swings or regulator undershoot.
The 40-2 circle is set at XDV with a time delayof 0.6 seconds to provide tripping
for short circuited fields at no load or open circuit field, while not tripping for
stable swings. This function should be blocked for VTFF.Convert X’DV and XDV from per unit on gen. MVA and kV bases to relay ohms:
ZBASE (Generator Relay Base Impedance) = (kV2/MVAG)*(CTR/PTR) = 76.63 W
X’DV-RELAY = (X’DV) * ZBASE) = 22.221 W
1.0 PU-RELAY = (1.0 pu W) * ZBASE) = 76.63 W
XDV-RELAY = (XDV) * ZBASE) = 163.21 W
Set 40-STG1 Center = (X’DV-RELAY + 1.0 PU-RELAY) / 2 = 49.42 W
Set 40-1 Radius = (1.0 PU-RELAY / 2) = 38.31 W
Set 40-STG1 Delay = 0.06 secondsSet 40-STG2 Center = (X’DV-RELAY + XDV-RELAY) / 2 = 92.72 W
Set 40-2 Radius = (XDV-RELAY / 2) = 81.61 W
Set 40-STG2 Delay = 0.6 seconds
Set 40-STG1 & 40-STG2 UV Supervision = 0.9 per unit
40-1 & 40-2
Section 1 G60_R1 20
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-250
-200
-150
-100
-50
0
50
100
150
-100 -80 -60 -40 -20 0 20 40 60 80 100 120
X
R
Loss of Excitation Protection (relay ohms)
40-1 40-2 Capability Curve @ 40°C Cold Gas SSSL UEL
Section 1 G60_R1 21
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-400
-300
-200
-100
0
100
200
300
0 50 100 150 200 250 300 350 400 M V A R
MW
Loss of Excitation Protection (relay ohms)
Capability Curve @ 40°C Cold Gas UEL 40-1 40-2
Section 1 G60_R1 22
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Generators 339X224, 339X225
Generator Protection - G60A/B
GE Energy
Setting Calculation Sheet
Anti-Motoring Function (ANSI Device 32-1)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
Generator Base kW Rating: 274.6 MW
B) Relay Data
32-STG1,32-STG2 Relay Ranges: -1.200 to 1.200 pu in steps of 0.001
0 to 600.00 seconds in steps of 0.01
CT Ratio (CTR): 15,000 / 1 = 15,000 :1
PT Ratio (PTR): 15,000 / 110 = 136.36 :1
C) Settings Calculations
Relay Setting Philosophy: Gas turbines require 10 - 50% of rated power
to motor depending on design. 32-STG1 pickup settings should be 7% of
rating. 32-STG2 will be disabled. This function should be blocked for VTFF.
This function is blocked during startup.
32-STG1 pickup set for 7.0% of machine rating = 19.2185 MW
32-STG1 base quantity = 3 x VT pu base x CT pu base = 675.0 MW
180 °
0 °
0.028 pu
10 seconds
32-1
Set Directional Power 1STG1 Delay for:
Set Directional Power 1
STG1 SMIN for:
Set Directional Power 1
Calibration for:
Set Dir. Power 1 Relay
Characteristic Angle for:
Figure 5-85 (a) in G60 Instruction Manual
Sensitive Directional Power Element
Section 1 G60_R1 24
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gGUDDU
Generators 339X224, 339X225
Generator Protection - G60A/B
GE Energy
Setting Calculation Sheet
Under/Overfrequency Functions (ANSI Devices 81-U/O)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
Nominal Frequency: 50 Hz
B) Relay Data
81 Relay Ranges: 35 - 99% Undervoltage Cutoff
20.0 - 65.0 Hz Set Points (81U, 81O)
0.000 - 65.535 second delay time range
PT Ratio (PTR): 15,000 / 110 = 136.36 :1
C) Settings Calculations
Relay Setting Philosophy: GE heavy-duty single shaft gas turbines are designedto operate over a 95% to 105% speed range.
Settings will back up the MARK VI under and over speed protection of GE "F" line
gas turbines set for instantaneous breaker trip at 94% speed and alarm at 108%
speed. Function blocked for VTFF and startup.
Recommended 81-U/O Settings:
Recommended Undervoltage Cutoff = 85%
81U-1 pickup = 47.0 Hz 81O-1 pickup = 54.0 Hz
81U-1 delay = 20.0 sec 81O-1 delay = 1.0 sec81U-1 reset = 0.0 sec 81O-1 reset = 0.0 sec
81U-1 output = TRIP 52G 81O-1 output = ALARM
81-U/O
Section 1 G60_R1 25
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gGUDDU
Generators 339X224, 339X225
Generator Protection - G60A/B
GE Energy
Setting Calculation Sheet
Stator Ground Fault 3RD Harmonic Undervoltage Function (ANSI Device 27TN)
A) Generator Data
Generator Data: 323 MVAG, 15.00 kV, 0.85 pf
B) Relay Data
27TN Relay Ranges: 0 - 3.0 per unit Volts pickup range
0.00 - 600.00 second delay time range
C) Settings Calculations
Relay Setting Philosophy: The 27TN function is set during commissioning to
cover the last several percent of the stator closest to the neutral. The 27TN
pickup setting must be based upon the minimum measured 3RD harmonic
voltage appearing across the resistor (NGR) in the neutral grounding transformer.This voltage can be internally monitored using the data accumulated in the
DATA LOGGER. DATA LOGGER has been programmed to capture this data and
the 27TN function has temporary settings for 3rd harmonic voltage measurement.
The following procedure should be used to set the the 27TN function:
1 Obtain the minimum 3rd harmonic voltage across the NGR by methods
described above during generator load testing.
2 Program the G60 3RD HARM NTRL UV PICKUP setting to be one half of the
min. observed 3rd harmonic voltage across the NGR in per unit on 240V base.
This setting may be entered in steps of 0.001 puV
3 Program the G60 27TN time delay setting to 5 seconds.4 Program the G60 27TN MIN POWER pickup setting for the lower per-unit
power level in which the measured 3RD harmonic voltage falls
below 0.2 volts. Set for 0 if minimum does not fall below 0.2V.
5 Program the DGP 27TN MAX POWER pickup setting for the higher per-unit
power level in which the measured 3RD harmonic voltage falls
below 0.2 volts. Set for 0 if minimum does not fall below 0.2V.
6 Enable the 3RD HARM NTRL UV function.
This function will be blocked during startup.
27TN
Section 1 G60_R1 26
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
PRODUCT SETUPSECURITYCommand Password 0Setting Password 0Command Password Access Timeout 5 minSetting Password Access Timeout 30 minInvalid Password Attempts 3Password Lockout Duration 5 minPassword Access Events Disabled Local Setting Authorized ONRemote Setting Authorized ONAccess Authorized Timeout 30 min
DISPLAY PROPERTIESFlash Message Time 1.0 sDefault Message Timeout 300 sDefault Message Intensity (VFD Only) 25 %
Screen Saver Feature (LCD Only) Disabled Screen Saver Wait Time (LCD Only) 30 minCurrent Cutoff Level 0.020 puVoltage Cutoff Level 1.0 V
COMMUNICATIONSSERIAL PORTSCOM2 Selection RS485RS485 Com2 Baud Rate 115200RS485 Com2 Parity NoneRS485 Com2 Response Min Time 0 ms
NETWORK IP Address 3. 94.244.210IP Subnet Mask 255.255.252. 0Gateway IP Address 3. 94.244. 1Ethernet Operation Mode Full-Duplex
OSI Network Address (NSAP) 33 33 20 33 33 20 32 30 20 33 33 20 33 33 20 32 30 20 33 32
MODBUS PROTOCOLModbus Slave Address 254Modbus TCP Port Number 502
IEC 61850GSSE / GOOSE CONFIGURATION
TRANSMISSIONGENERALDefault GSSE/GOOSE Update Time 60 s
GSSEFunction Enabled ID GSSEOutDestination MAC 00 00 00 00 00 00
TX CONFIGURABLE GOOSEGOOSEOut 1 Function Enabled GOOSEOut 1 ID GOOSEOut_1GOOSEOut 1 Destination MAC 00 00 00 00 00 00GOOSEOut 1 VLAN Priority 4GOOSEOut 1 VLAN ID 0GOOSEOut 1 ETYPE APPID 0GOOSEOut 1 ConfRev 1GOOSEOut 1 Retransmission Curve Relaxed GOOSEOut 2 Function Enabled GOOSEOut 2 ID GOOSEOut_2GOOSEOut 2 Destination MAC 00 00 00 00 00 00GOOSEOut 2 VLAN Priority 4GOOSEOut 2 VLAN ID 0GOOSEOut 2 ETYPE APPID 0GOOSEOut 2 ConfRev 1GOOSEOut 2 Retransmission Curve Relaxed
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
TX CONFIGURABLE GOOSE (continued from last page)GOOSEOut 3 Function Enabled GOOSEOut 3 ID GOOSEOut_3GOOSEOut 3 Destination MAC 00 00 00 00 00 00GOOSEOut 3 VLAN Priority 4GOOSEOut 3 VLAN ID 0GOOSEOut 3 ETYPE APPID 0GOOSEOut 3 ConfRev 1GOOSEOut 3 Retransmission Curve Relaxed GOOSEOut 4 Function Enabled GOOSEOut 4 ID GOOSEOut_4GOOSEOut 4 Destination MAC 00 00 00 00 00 00GOOSEOut 4 VLAN Priority 4GOOSEOut 4 VLAN ID 0GOOSEOut 4 ETYPE APPID 0GOOSEOut 4 ConfRev 1GOOSEOut 4 Retransmission Curve Relaxed
GOOSEOut 5 Function Enabled GOOSEOut 5 ID GOOSEOut_5GOOSEOut 5 Destination MAC 00 00 00 00 00 00GOOSEOut 5 VLAN Priority 4GOOSEOut 5 VLAN ID 0GOOSEOut 5 ETYPE APPID 0GOOSEOut 5 ConfRev 1GOOSEOut 5 Retransmission Curve Relaxed GOOSEOut 6 Function Enabled GOOSEOut 6 ID GOOSEOut_6GOOSEOut 6 Destination MAC 00 00 00 00 00 00GOOSEOut 6 VLAN Priority 4GOOSEOut 6 VLAN ID 0GOOSEOut 6 ETYPE APPID 0GOOSEOut 6 ConfRev 1GOOSEOut 6 Retransmission Curve Relaxed GOOSEOut 7 Function Enabled
GOOSEOut 7 ID GOOSEOut_7GOOSEOut 7 Destination MAC 00 00 00 00 00 00GOOSEOut 7 VLAN Priority 4GOOSEOut 7 VLAN ID 0GOOSEOut 7 ETYPE APPID 0GOOSEOut 7 ConfRev 1GOOSEOut 7 Retransmission Curve Relaxed GOOSEOut 8 Function Enabled GOOSEOut 8 ID GOOSEOut_8GOOSEOut 8 Destination MAC 00 00 00 00 00 00GOOSEOut 8 VLAN Priority 4GOOSEOut 8 VLAN ID 0GOOSEOut 8 ETYPE APPID 0GOOSEOut 8 ConfRev 1GOOSEOut 8 Retransmission Curve Relaxed
SERVER CONFIGURATION
IEDName IEDNameLogical Device Instance LDInstLPHD DC PhyNam location LocationMMS TCP Port Number 102
MMXU DEADBANDSMMXU1: TotW Deadband 10.000 %MMXU1: TotVAr Deadband 10.000 %MMXU1: TotVA Deadband 10.000 %MMXU1: TotPF Deadband 10.000 %MMXU1: Hz Deadband 10.000 %MMXU1: PPV phsAB Deadband 10.000 %MMXU1: PPV phsBC Deadband 10.000 %MMXU1: PPV phsCA Deadband 10.000 %MMXU1: PhV phsA Deadband 10.000 %MMXU1: PhV phsB Deadband 10.000 %MMXU1: PhV phsC Deadband 10.000 %
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
MMXU DEADBANDS (continued from last page)MMXU1: A phsA Deadband 10.000 %MMXU1: A phsB Deadband 10.000 %MMXU1: A phsC Deadband 10.000 %MMXU1: A neut Deadband 10.000 %MMXU1: W phsA Deadband 10.000 %MMXU1: W phsB Deadband 10.000 %MMXU1: W phsC Deadband 10.000 %MMXU1: VAr phsA Deadband 10.000 %MMXU1: VAr phsB Deadband 10.000 %MMXU1: VAr phsC Deadband 10.000 %MMXU1: VA phsA Deadband 10.000 %MMXU1: VA phsB Deadband 10.000 %MMXU1: VA phsC Deadband 10.000 %MMXU1: PF phsA Deadband 10.000 %MMXU1: PF phsB Deadband 10.000 %MMXU1: PF phsC Deadband 10.000 %
MMXU2: TotW Deadband 10.000 %MMXU2: TotVAr Deadband 10.000 %MMXU2: TotVA Deadband 10.000 %MMXU2: TotPF Deadband 10.000 %MMXU2: Hz Deadband 10.000 %MMXU2: PPV phsAB Deadband 10.000 %MMXU2: PPV phsBC Deadband 10.000 %MMXU2: PPV phsCA Deadband 10.000 %MMXU2: PhV phsA Deadband 10.000 %MMXU2: PhV phsB Deadband 10.000 %MMXU2: PhV phsC Deadband 10.000 %MMXU2: A phsA Deadband 10.000 %MMXU2: A phsB Deadband 10.000 %MMXU2: A phsC Deadband 10.000 %MMXU2: A neut Deadband 10.000 %MMXU2: W phsA Deadband 10.000 %MMXU2: W phsB Deadband 10.000 %
MMXU2: W phsC Deadband 10.000 %MMXU2: VAr phsA Deadband 10.000 %MMXU2: VAr phsB Deadband 10.000 %MMXU2: VAr phsC Deadband 10.000 %MMXU2: VA phsA Deadband 10.000 %MMXU2: VA phsB Deadband 10.000 %MMXU2: VA phsC Deadband 10.000 %MMXU2: PF phsA Deadband 10.000 %MMXU2: PF phsB Deadband 10.000 %MMXU2: PF phsC Deadband 10.000 %MMXU3: TotW Deadband 10.000 %MMXU3: TotVAr Deadband 10.000 %MMXU3: TotVA Deadband 10.000 %MMXU3: TotPF Deadband 10.000 %MMXU3: Hz Deadband 10.000 %MMXU3: PPV phsAB Deadband 10.000 %MMXU3: PPV phsBC Deadband 10.000 %
MMXU3: PPV phsCA Deadband 10.000 %MMXU3: PhV phsA Deadband 10.000 %MMXU3: PhV phsB Deadband 10.000 %MMXU3: PhV phsC Deadband 10.000 %MMXU3: A phsA Deadband 10.000 %MMXU3: A phsB Deadband 10.000 %MMXU3: A phsC Deadband 10.000 %MMXU3: A neut Deadband 10.000 %MMXU3: W phsA Deadband 10.000 %MMXU3: W phsB Deadband 10.000 %MMXU3: W phsC Deadband 10.000 %MMXU3: VAr phsA Deadband 10.000 %MMXU3: VAr phsB Deadband 10.000 %MMXU3: VAr phsC Deadband 10.000 %MMXU3: VA phsA Deadband 10.000 %MMXU3: VA phsB Deadband 10.000 %MMXU3: VA phsC Deadband 10.000 %
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
MMXU DEADBANDS (continued from last page)MMXU3: PF phsA Deadband 10.000 %MMXU3: PF phsB Deadband 10.000 %MMXU3: PF phsC Deadband 10.000 %MMXU4: TotW Deadband 10.000 %MMXU4: TotVAr Deadband 10.000 %MMXU4: TotVA Deadband 10.000 %MMXU4: TotPF Deadband 10.000 %MMXU4: Hz Deadband 10.000 %MMXU4: PPV phsAB Deadband 10.000 %MMXU4: PPV phsBC Deadband 10.000 %MMXU4: PPV phsCA Deadband 10.000 %MMXU4: PhV phsA Deadband 10.000 %MMXU4: PhV phsB Deadband 10.000 %MMXU4: PhV phsC Deadband 10.000 %MMXU4: A phsA Deadband 10.000 %MMXU4: A phsB Deadband 10.000 %
MMXU4: A phsC Deadband 10.000 %MMXU4: A neut Deadband 10.000 %MMXU4: W phsA Deadband 10.000 %MMXU4: W phsB Deadband 10.000 %MMXU4: W phsC Deadband 10.000 %MMXU4: VAr phsA Deadband 10.000 %MMXU4: VAr phsB Deadband 10.000 %MMXU4: VAr phsC Deadband 10.000 %MMXU4: VA phsA Deadband 10.000 %MMXU4: VA phsB Deadband 10.000 %MMXU4: VA phsC Deadband 10.000 %MMXU4: PF phsA Deadband 10.000 %MMXU4: PF phsB Deadband 10.000 %MMXU4: PF phsC Deadband 10.000 %
GGIO1 STATUS CONFIGURATION Number of Status Points 8
GGIO2 CONTROL CONFIGURATIONSPCSO 1 ctlModel 1SPCSO 2 ctlModel 1SPCSO 3 ctlModel 1SPCSO 4 ctlModel 1SPCSO 5 ctlModel 1SPCSO 6 ctlModel 1SPCSO 7 ctlModel 1SPCSO 8 ctlModel 1SPCSO 9 ctlModel 1SPCSO 10 ctlModel 1SPCSO 11 ctlModel 1SPCSO 12 ctlModel 1SPCSO 13 ctlModel 1SPCSO 14 ctlModel 1SPCSO 15 ctlModel 1
SPCSO 16 ctlModel 1SPCSO 17 ctlModel 1SPCSO 18 ctlModel 1SPCSO 19 ctlModel 1SPCSO 20 ctlModel 1SPCSO 21 ctlModel 1SPCSO 22 ctlModel 1SPCSO 23 ctlModel 1SPCSO 24 ctlModel 1SPCSO 25 ctlModel 1SPCSO 26 ctlModel 1SPCSO 27 ctlModel 1SPCSO 28 ctlModel 1SPCSO 29 ctlModel 1SPCSO 30 ctlModel 1SPCSO 31 ctlModel 1SPCSO 32 ctlModel 1
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
GGIO2 CONTROL CONFIGURATION (continued from last page)SPCSO 33 ctlModel 1SPCSO 34 ctlModel 1SPCSO 35 ctlModel 1SPCSO 36 ctlModel 1SPCSO 37 ctlModel 1SPCSO 38 ctlModel 1SPCSO 39 ctlModel 1SPCSO 40 ctlModel 1SPCSO 41 ctlModel 1SPCSO 42 ctlModel 1SPCSO 43 ctlModel 1SPCSO 44 ctlModel 1SPCSO 45 ctlModel 1SPCSO 46 ctlModel 1SPCSO 47 ctlModel 1SPCSO 48 ctlModel 1
SPCSO 49 ctlModel 1SPCSO 50 ctlModel 1SPCSO 51 ctlModel 1SPCSO 52 ctlModel 1SPCSO 53 ctlModel 1SPCSO 54 ctlModel 1SPCSO 55 ctlModel 1SPCSO 56 ctlModel 1SPCSO 57 ctlModel 1SPCSO 58 ctlModel 1SPCSO 59 ctlModel 1SPCSO 60 ctlModel 1SPCSO 61 ctlModel 1SPCSO 62 ctlModel 1SPCSO 63 ctlModel 1SPCSO 64 ctlModel 1
GGIO4 ANALOG CONFIGURATIONIEC61850 GGIO4 Analogs 4IEC61850 GGIO4 Analog 1 Value OFFIEC61850 GGIO4 Analog 1 db 100.000 %IEC61850 GGIO4 Analog 1 min 0.000IEC61850 GGIO4 Analog 1 max 1000000.000IEC61850 GGIO4 Analog 2 Value OFFIEC61850 GGIO4 Analog 2 db 100.000 %IEC61850 GGIO4 Analog 2 min 0.000IEC61850 GGIO4 Analog 2 max 1000000.000IEC61850 GGIO4 Analog 3 Value OFFIEC61850 GGIO4 Analog 3 db 100.000 %IEC61850 GGIO4 Analog 3 min 0.000IEC61850 GGIO4 Analog 3 max 1000000.000IEC61850 GGIO4 Analog 4 Value OFFIEC61850 GGIO4 Analog 4 db 100.000 %IEC61850 GGIO4 Analog 4 min 0.000
IEC61850 GGIO4 Analog 4 max 1000000.000IEC61850 GGIO4 Analog 5 Value OFFIEC61850 GGIO4 Analog 5 db 100.000 %IEC61850 GGIO4 Analog 5 min 0.000IEC61850 GGIO4 Analog 5 max 1000000.000IEC61850 GGIO4 Analog 6 Value OFFIEC61850 GGIO4 Analog 6 db 100.000 %IEC61850 GGIO4 Analog 6 min 0.000IEC61850 GGIO4 Analog 6 max 1000000.000IEC61850 GGIO4 Analog 7 Value OFFIEC61850 GGIO4 Analog 7 db 100.000 %IEC61850 GGIO4 Analog 7 min 0.000IEC61850 GGIO4 Analog 7 max 1000000.000IEC61850 GGIO4 Analog 8 Value OFFIEC61850 GGIO4 Analog 8 db 100.000 %IEC61850 GGIO4 Analog 8 min 0.000IEC61850 GGIO4 Analog 8 max 1000000.000
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
GGIO4 ANALOG CONFIGURATION (continued from last page)IEC61850 GGIO4 Analog 9 Value OFFIEC61850 GGIO4 Analog 9 db 100.000 %IEC61850 GGIO4 Analog 9 min 0.000IEC61850 GGIO4 Analog 9 max 1000000.000IEC61850 GGIO4 Analog 10 Value OFFIEC61850 GGIO4 Analog 10 db 100.000 %IEC61850 GGIO4 Analog 10 min 0.000IEC61850 GGIO4 Analog 10 max 1000000.000IEC61850 GGIO4 Analog 11 Value OFFIEC61850 GGIO4 Analog 11 db 100.000 %IEC61850 GGIO4 Analog 11 min 0.000IEC61850 GGIO4 Analog 11 max 1000000.000IEC61850 GGIO4 Analog 12 Value OFFIEC61850 GGIO4 Analog 12 db 100.000 %IEC61850 GGIO4 Analog 12 min 0.000IEC61850 GGIO4 Analog 12 max 1000000.000
IEC61850 GGIO4 Analog 13 Value OFFIEC61850 GGIO4 Analog 13 db 100.000 %IEC61850 GGIO4 Analog 13 min 0.000IEC61850 GGIO4 Analog 13 max 1000000.000IEC61850 GGIO4 Analog 14 Value OFFIEC61850 GGIO4 Analog 14 db 100.000 %IEC61850 GGIO4 Analog 14 min 0.000IEC61850 GGIO4 Analog 14 max 1000000.000IEC61850 GGIO4 Analog 15 Value OFFIEC61850 GGIO4 Analog 15 db 100.000 %IEC61850 GGIO4 Analog 15 min 0.000IEC61850 GGIO4 Analog 15 max 1000000.000IEC61850 GGIO4 Analog 16 Value OFFIEC61850 GGIO4 Analog 16 db 100.000 %IEC61850 GGIO4 Analog 16 min 0.000IEC61850 GGIO4 Analog 16 max 1000000.000IEC61850 GGIO4 Analog 17 Value OFF
IEC61850 GGIO4 Analog 17 db 100.000 %IEC61850 GGIO4 Analog 17 min 0.000IEC61850 GGIO4 Analog 17 max 1000000.000IEC61850 GGIO4 Analog 18 Value OFFIEC61850 GGIO4 Analog 18 db 100.000 %IEC61850 GGIO4 Analog 18 min 0.000IEC61850 GGIO4 Analog 18 max 1000000.000IEC61850 GGIO4 Analog 19 Value OFFIEC61850 GGIO4 Analog 19 db 100.000 %IEC61850 GGIO4 Analog 19 min 0.000IEC61850 GGIO4 Analog 19 max 1000000.000IEC61850 GGIO4 Analog 20 Value OFFIEC61850 GGIO4 Analog 20 db 100.000 %IEC61850 GGIO4 Analog 20 min 0.000IEC61850 GGIO4 Analog 20 max 1000000.000IEC61850 GGIO4 Analog 21 Value OFFIEC61850 GGIO4 Analog 21 db 100.000 %
IEC61850 GGIO4 Analog 21 min 0.000IEC61850 GGIO4 Analog 21 max 1000000.000IEC61850 GGIO4 Analog 22 Value OFFIEC61850 GGIO4 Analog 22 db 100.000 %IEC61850 GGIO4 Analog 22 min 0.000IEC61850 GGIO4 Analog 22 max 1000000.000IEC61850 GGIO4 Analog 23 Value OFFIEC61850 GGIO4 Analog 23 db 100.000 %IEC61850 GGIO4 Analog 23 min 0.000IEC61850 GGIO4 Analog 23 max 1000000.000IEC61850 GGIO4 Analog 24 Value OFFIEC61850 GGIO4 Analog 24 db 100.000 %IEC61850 GGIO4 Analog 24 min 0.000IEC61850 GGIO4 Analog 24 max 1000000.000IEC61850 GGIO4 Analog 25 Value OFFIEC61850 GGIO4 Analog 25 db 100.000 %IEC61850 GGIO4 Analog 25 min 0.000
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
GGIO4 ANALOG CONFIGURATION (continued from last page)IEC61850 GGIO4 Analog 25 max 1000000.000IEC61850 GGIO4 Analog 26 Value OFFIEC61850 GGIO4 Analog 26 db 100.000 %IEC61850 GGIO4 Analog 26 min 0.000IEC61850 GGIO4 Analog 26 max 1000000.000IEC61850 GGIO4 Analog 27 Value OFFIEC61850 GGIO4 Analog 27 db 100.000 %IEC61850 GGIO4 Analog 27 min 0.000IEC61850 GGIO4 Analog 27 max 1000000.000IEC61850 GGIO4 Analog 28 Value OFFIEC61850 GGIO4 Analog 28 db 100.000 %IEC61850 GGIO4 Analog 28 min 0.000IEC61850 GGIO4 Analog 28 max 1000000.000IEC61850 GGIO4 Analog 29 Value OFFIEC61850 GGIO4 Analog 29 db 100.000 %IEC61850 GGIO4 Analog 29 min 0.000
IEC61850 GGIO4 Analog 29 max 1000000.000IEC61850 GGIO4 Analog 30 Value OFFIEC61850 GGIO4 Analog 30 db 100.000 %IEC61850 GGIO4 Analog 30 min 0.000IEC61850 GGIO4 Analog 30 max 1000000.000IEC61850 GGIO4 Analog 31 Value OFFIEC61850 GGIO4 Analog 31 db 100.000 %IEC61850 GGIO4 Analog 31 min 0.000IEC61850 GGIO4 Analog 31 max 1000000.000IEC61850 GGIO4 Analog 32 Value OFFIEC61850 GGIO4 Analog 32 db 100.000 %IEC61850 GGIO4 Analog 32 min 0.000IEC61850 GGIO4 Analog 32 max 1000000.000
REPORT CONTROL CONFIGURATIONREPORT 1 (GGIO1.BR): RptIDREPORT 1 (GGIO1.BR): OptFlds 0
REPORT 1 (GGIO1.BR): BufTm 0REPORT 1 (GGIO1.BR): TrgOps 0REPORT 1 (GGIO1.BR): IntgPd 0REPORT 2 (GGIO1.BR01): RptIDREPORT 2 (GGIO1.BR01): OptFlds 0REPORT 2 (GGIO1.BR01): BufTm 0REPORT 2 (GGIO1.BR01): TrgOps 0REPORT 2 (GGIO1.BR01): IntgPd 0REPORT 3 (GGIO1.RP): RptIDREPORT 3 (GGIO1.RP): OptFlds 0REPORT 3 (GGIO1.RP): BufTm 0REPORT 3 (GGIO1.RP): TrgOps 0REPORT 3 (GGIO1.RP): IntgPd 0REPORT 4 (GGIO4.RP): RptIDREPORT 4 (GGIO4.RP): OptFlds 0REPORT 4 (GGIO4.RP): BufTm 0REPORT 4 (GGIO4.RP): TrgOps 0
REPORT 4 (GGIO4.RP): IntgPd 0REPORT 5 (MMXU1.BR): RptIDREPORT 5 (MMXU1.BR): OptFlds 0REPORT 5 (MMXU1.BR): BufTm 0REPORT 5 (MMXU1.BR): TrgOps 0REPORT 5 (MMXU1.BR): IntgPd 0REPORT 6 (MMXU1.RP): RptIDREPORT 6 (MMXU1.RP): OptFlds 0REPORT 6 (MMXU1.RP): BufTm 0REPORT 6 (MMXU1.RP): TrgOps 0REPORT 6 (MMXU1.RP): IntgPd 0REPORT 7 (MMXU2.BR): RptIDREPORT 7 (MMXU2.BR): OptFlds 0REPORT 7 (MMXU2.BR): BufTm 0REPORT 7 (MMXU2.BR): TrgOps 0REPORT 7 (MMXU2.BR): IntgPd 0REPORT 8 (MMXU2.RP): RptID
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
REPORT CONTROL CONFIGURATION (continued from last page)REPORT 8 (MMXU2.RP): OptFlds 0REPORT 8 (MMXU2.RP): BufTm 0REPORT 8 (MMXU2.RP): TrgOps 0REPORT 8 (MMXU2.RP): IntgPd 0REPORT 9 (MMXU3.BR): RptIDREPORT 9 (MMXU3.BR): OptFlds 0REPORT 9 (MMXU3.BR): BufTm 0REPORT 9 (MMXU3.BR): TrgOps 0REPORT 9 (MMXU3.BR): IntgPd 0REPORT 10 (MMXU3.RP): RptIDREPORT 10 (MMXU3.RP): OptFlds 0REPORT 10 (MMXU3.RP): BufTm 0REPORT 10 (MMXU3.RP): TrgOps 0REPORT 10 (MMXU3.RP): IntgPd 0REPORT 11 (MMXU4.BR): RptIDREPORT 11 (MMXU4.BR): OptFlds 0
REPORT 11 (MMXU4.BR): BufTm 0REPORT 11 (MMXU4.BR): TrgOps 0REPORT 11 (MMXU4.BR): IntgPd 0REPORT 12 (MMXU4.RP): RptIDREPORT 12 (MMXU4.RP): OptFlds 0REPORT 12 (MMXU4.RP): BufTm 0REPORT 12 (MMXU4.RP): TrgOps 0REPORT 12 (MMXU4.RP): IntgPd 0
XCBR CONFIGURATIONXCBR1 ST.Loc Operand OFFXCBR2 ST.Loc Operand OFFXCBR3 ST.Loc Operand OFFXCBR4 ST.Loc Operand OFFClear XCBR1 OpCnt NoClear XCBR2 OpCnt NoClear XCBR3 OpCnt No
Clear XCBR4 OpCnt No
XSWI CONFIGURATIONXSWI1 ST.Loc Operand OFFXSWI2 ST.Loc Operand OFFXSWI3 ST.Loc Operand OFFXSWI4 ST.Loc Operand OFFXSWI5 ST.Loc Operand OFFXSWI6 ST.Loc Operand OFFXSWI7 ST.Loc Operand OFFXSWI8 ST.Loc Operand OFFXSWI9 ST.Loc Operand OFFXSWI10 ST.Loc Operand OFFXSWI11 ST.Loc Operand OFFXSWI12 ST.Loc Operand OFFXSWI13 ST.Loc Operand OFFXSWI14 ST.Loc Operand OFF
XSWI15 ST.Loc Operand OFFXSWI16 ST.Loc Operand OFFClear XSWI1 OpCnt NoClear XSWI2 OpCnt NoClear XSWI3 OpCnt NoClear XSWI4 OpCnt NoClear XSWI5 OpCnt NoClear XSWI6 OpCnt NoClear XSWI7 OpCnt NoClear XSWI8 OpCnt NoClear XSWI9 OpCnt NoClear XSWI10 OpCnt NoClear XSWI11 OpCnt NoClear XSWI12 OpCnt NoClear XSWI13 OpCnt NoClear XSWI14 OpCnt NoClear XSWI15 OpCnt No
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
XSWI CONFIGURATION (continued from last page)Clear XSWI16 OpCnt No
HTTPHTTP TCP Port Number 80
TFTPTFTP Main UDP Port Number 69TFTP Data UDP Port Number 1 0TFTP Data UDP Port Number 2 0
REAL TIME CLOCK IRIG-B Signal Type Amplitude Modulated Real Time Clock Events Enabled Time Zone Offset 0.0 hr DST Function Disabled
OSCILLOGRAPHY Number Of Records 3Trigger Mode Automatic OverwriteTrigger Position 25 %Trigger Source OSC TRIG On (VO6)AC Input Waveforms 64 samples/cycleDigital Channel 1 86G-1 TRIP On (VO1)Digital Channel 2 STATOR DIFF OP ADigital Channel 3 STATOR DIFF OP BDigital Channel 4 STATOR DIFF OP CDigital Channel 5 3RD HARM NTRL UV PKPDigital Channel 6 3RD HARM NTRL UV OPDigital Channel 7 3RD HARM NTRL UV DPODigital Channel 8 AUX OV 1 PKPDigital Channel 9 AUX OV 1 OPDigital Channel 10 AUX OV 1 DPODigital Channel 11 86G-2 TRIP On (VO2)
Digital Channel 12 VOLTS PER HERTZ 1 PKPDigital Channel 13 VOLTS PER HERTZ 1 OPDigital Channel 14 VOLTS PER HERTZ 1 DPODigital Channel 15 VOLTS PER HERTZ 2 PKPDigital Channel 16 VOLTS PER HERTZ 2 OPDigital Channel 17 VOLTS PER HERTZ 2 DPODigital Channel 18 LOSS EXCIT PKPDigital Channel 19 LOSS EXCIT OPDigital Channel 20 LOSS EXCIT DPODigital Channel 21 GEN UNBAL PKPDigital Channel 22 GEN UNBAL OPDigital Channel 23 GEN UNBAL DPODigital Channel 24 52G TRIP On (VO3)Digital Channel 25 PH DIST Z2 OP ABDigital Channel 26 PH DIST Z2 OP BCDigital Channel 27 PH DIST Z2 OP CADigital Channel 28 DIR POWER 1 OP
Digital Channel 29 DIR POWER 2 OPDigital Channel 30 POWER SWING TRIPDigital Channel 31 UNDERFREQ 1 PKPDigital Channel 32 UNDERFREQ 1 OPDigital Channel 33 UNDERFREQ 1 DPODigital Channel 34 24A (FE 1) DPODigital Channel 35 GEN UNBAL STG2 OPDigital Channel 36 ACCDNT ENRG OPDigital Channel 37 SRC2 VT FUSE FAIL OPDigital Channel 38 PHASE UV1 OPDigital Channel 39 PHASE OV1 OPDigital Channel 40 PHASE TOC1 PKPDigital Channel 41 PHASE TOC1 OPDigital Channel 42 PHASE TOC1 DPODigital Channel 43 OVERFREQ 1 PKPDigital Channel 44 OVERFREQ 1 OPDigital Channel 45 OVERFREQ 1 DPO
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
OSCILLOGRAPHY (continued from last page)Analog Channel 1 Stator Diff Iad Analog Channel 2 Stator Rest Iar Analog Channel 3 Stator Diff Ibd Analog Channel 4 Stator Rest Ibr Analog Channel 5 Stator Diff Icd Analog Channel 6 Stator Rest Icr Analog Channel 7 Stator Gnd Vn 3rd Analog Channel 8 SRC2 Vag RMSAnalog Channel 9 SRC2 Vbg RMSAnalog Channel 10 SRC2 Vcg RMSAnalog Channel 11 SRC2 Ia RMSAnalog Channel 12 SRC2 Ib RMSAnalog Channel 13 SRC2 Ic RMSAnalog Channel 14 SRC1 Ia RMSAnalog Channel 15 SRC1 Ib RMSAnalog Channel 16 SRC1 Ic RMS
DATA LOGGER Data Logger Mode ContinuousData Logger Trigger OFFRate 10000 msecChannel 1 Stator Gnd Vn 3rd Channel 2 SRC2 PChannel 3 SRC2 PFChannel 4 SRC1 Vx RMSChannel 5 SRC1 Vx Mag
USER-PROGRAMMABLE LEDSTRIP AND ALARMS LEDSTrip LED Input ANY TRIP On (VO4)Alarm LED Input ANY SELF TESTS
USER PROGRAMMABLE LEDS
LED 1: OPERAND 3RD HARM NTRL UV OPLED 1: TYPE Latched LED 2: OPERAND 59N(DE1) OPLED 2: TYPE Latched LED 3: OPERAND STATOR DIFF OP ALED 3: TYPE Latched LED 4: OPERAND STATOR DIFF OP BLED 4: TYPE Latched LED 5: OPERAND STATOR DIFF OP CLED 5: TYPE Latched LED 6: OPERAND VOLTS PER HERTZ 1 OPLED 6: TYPE Latched LED 7: OPERAND VOLTS PER HERTZ 2 OPLED 7: TYPE Latched LED 8: OPERAND LOSS EXCIT STG1 OPLED 8: TYPE Latched LED 9: OPERAND LOSS EXCIT STG2 OP
LED 9: TYPE Latched LED 10: OPERAND PH DIST Z2 OP ABLED 10: TYPE Latched LED 11: OPERAND PH DIST Z2 OP BCLED 11: TYPE Latched LED 12: OPERAND PH DIST Z2 OP CALED 12: TYPE Latched LED 13: OPERAND POWER SWING TRIPLED 13: TYPE Latched LED 14: OPERAND DIR POWER 1 OPLED 14: TYPE Latched LED 15: OPERAND UNDERFREQ 1 OPLED 15: TYPE Latched LED 16: OPERAND SRC2 VT FUSE FAIL OPLED 16: TYPE Latched LED 17: OPERAND GEN UNBAL STG1 OPLED 17: TYPE Latched
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
USER PROGRAMMABLE LEDS (continued from last page)LED 18: OPERAND OVERFREQ 1 OPLED 18: TYPE Latched LED 19: OPERAND PHASE UV1 OPLED 19: TYPE Latched LED 20: OPERAND PHASE OV1 OPLED 20: TYPE Latched LED 21: OPERAND ACCDNT ENRG OPLED 21: TYPE Latched LED 22: OPERAND PHASE TOC1 OPLED 22: TYPE Latched LED 23: OPERAND 24A (FE 1) OPLED 23: TYPE Self-ResetLED 24: OPERAND GEN UNBAL STG2 OPLED 24: TYPE Self-ResetLED 25: OPERAND PHASE TOC1 PKPLED 25: TYPE Latched
LED 26: OPERAND VOLTS PER HERTZ 1 PKPLED 26: TYPE Latched LED 27: OPERAND VOLTS PER HERTZ 2 PKPLED 27: TYPE Latched LED 28: OPERAND UNDERFREQ 1 PKPLED 28: TYPE Latched LED 29: OPERAND GEN UNBAL STG1 PKPLED 29: TYPE Latched LED 30: OPERAND OVERFREQ 1 PKPLED 30: TYPE Latched
USER-PROGRAMMABLE SELF TESTSRemote Device Off Function Enabled Battery Fail Function Enabled SNTP Fail Function Enabled IRIG B Fail Function Enabled
INSTALLATIONRelay Name GTG G60
SYSTEM SETUPAC INPUTS
CURRENTCT F1: Phase CT Primary 15000 ACT F1: Phase CT Secondary 1 ACT F1: Ground CT Primary 15000 ACT F1: Ground CT Secondary 1 ACT M1: Phase CT Primary 15000 ACT M1: Phase CT Secondary 1 ACT M1: Ground CT Primary 15000 ACT M1: Ground CT Secondary 1 ACT M5: Phase CT Primary 1 ACT M5: Phase CT Secondary 1 ACT M5: Ground CT Primary 1 A
CT M5: Ground CT Secondary 1 A
VOLTAGEVT F5: Phase VT Connection DeltaVT F5: Phase VT Secondary 110.0 VVT F5: Phase VT Ratio 136.36 :1VT F5: Auxiliary VT Connection VnVT F5: Auxiliary VT Secondary 240.0 VVT F5: Auxiliary VT Ratio 50.00 :1
POWER SYSTEM Nominal Frequency 50 HzPhase Rotation ABCReverse Phase Rotation OFFFrequency And Phase Reference LINE (SRC 2)Frequency Tracking Function Enabled
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
SIGNAL SOURCESSOURCE 1: Name NEUTRLSOURCE 1: Phase CT F1SOURCE 1: Ground CT NoneSOURCE 1: Phase VT F5SOURCE 1: Auxiliary VT F5SOURCE 2: Name LINESOURCE 2: Phase CT M1SOURCE 2: Ground CT NoneSOURCE 2: Phase VT F5SOURCE 2: Auxiliary VT None
FLEXCURVESFLEXCURVE AFlexCurve Name FlexCurve A
FLEXCURVE B
FlexCurve Name FlexCurve B
FLEXCURVE CFlexCurve Name FlexCurve C
FLEXCURVE DFlexCurve Name FlexCurve D
FLEXLOGICFLEXLOGIC EQUATION EDITOR FlexLogic Entry 1 3RD HARM NTRL UV OPFlexLogic Entry 2 59N(DE1) OPFlexLogic Entry 3 STATOR DIFF OPFlexLogic Entry 4 OR(3)FlexLogic Entry 5 = 86G-1 TRIP (VO1)FlexLogic Entry 6 VOLTS PER HERTZ 1 OPFlexLogic Entry 7 VOLTS PER HERTZ 2 OP
FlexLogic Entry 8 LOSS EXCIT STG1 OPFlexLogic Entry 9 LOSS EXCIT STG2 OPFlexLogic Entry 10 GEN UNBAL STG1 OPFlexLogic Entry 11 OR(5)FlexLogic Entry 12 = 86G-2 TRIP (VO2)FlexLogic Entry 13 PH DIST Z2 OPFlexLogic Entry 14 DIR POWER 1 STG1 OPFlexLogic Entry 15 ACCDNT ENRG OPFlexLogic Entry 16 PHASE TOC1 OPFlexLogic Entry 17 POWER SWING TRIPFlexLogic Entry 18 UNDERFREQ 1 OPFlexLogic Entry 19 OR(6)FlexLogic Entry 20 = 52G TRIP (VO3)FlexLogic Entry 21 86G-1 TRIP On (VO1)FlexLogic Entry 22 86G-2 TRIP On (VO2)FlexLogic Entry 23 52G TRIP On (VO3)FlexLogic Entry 24 OR(3)
FlexLogic Entry 25 = ANY TRIP (VO4)FlexLogic Entry 26 52G/b On(H7a)FlexLogic Entry 27 SRC2 VT FUSE FAIL OPFlexLogic Entry 28 OR(2)FlexLogic Entry 29 = BLOCK (VO5)FlexLogic Entry 30 ANY TRIP On (VO4)FlexLogic Entry 31 TRIG OSC On(U7a)FlexLogic Entry 32 OR(2)FlexLogic Entry 33 = OSC TRIG (VO6)FlexLogic Entry 34 END
FLEXELEMENTSFLEXELEMENTS 1: Function Enabled FLEXELEMENTS 1: Name 24AFLEXELEMENTS 1: InputPlus Volts Per Hertz 1FLEXELEMENTS 1: InputMinus OFFFLEXELEMENTS 1: InputMode ABSOLUTE
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
FLEXELEMENTS (continued from last page)FLEXELEMENTS 1: Compare Mode LEVELFLEXELEMENTS 1: Direction Type OVER FLEXELEMENTS 1: Pickup 1.060 puFLEXELEMENTS 1: Hysteresis 3.0 %FLEXELEMENTS 1: DeltaTUnits MillisecondsFLEXELEMENTS 1: DeltaT 20FLEXELEMENTS 1: Pickup Delay 10.000 sFLEXELEMENTS 1: Reset Delay 60.000 sFLEXELEMENTS 1: Block OFFFLEXELEMENTS 1: Target Self-resetFLEXELEMENTS 1: Events Enabled
GROUPED ELEMENTSGROUP 1
DISTANCEDISTANCE [GROUP 1]
Source LINE (SRC 2)Memory Duration 10 cyclesForce Self-Polar OFFForce Mem-Polar OFF
PHASE DISTANCE [GROUP 1]PHASE DISTANCE Z2: Function Enabled PHASE DISTANCE Z2: Direction Forward PHASE DISTANCE Z2: Shape MhoPHASE DISTANCE Z2: Xfmr Vol Connection Dy1PHASE DISTANCE Z2: Xfmr Curr Connection Dy1PHASE DISTANCE Z2: Reach 72.73 ohmsPHASE DISTANCE Z2: RCA 90 degPHASE DISTANCE Z2: Rev Reach 0.02 ohmsPHASE DISTANCE Z2: Rev Reach RCA 85 degPHASE DISTANCE Z2: Comp Limit 90 degPHASE DISTANCE Z2: DIR RCA 90 deg
PHASE DISTANCE Z2: DIR Comp Limit 90 degPHASE DISTANCE Z2: Quad Right Blinder 10.00 ohmsPHASE DISTANCE Z2: Quad Right Blinder RCA 85 degPHASE DISTANCE Z2: Quad Left Blinder 10.00 ohmsPHASE DISTANCE Z2: Quad Left Blinder RCA 85 degPHASE DISTANCE Z2: Supervision 0.200 puPHASE DISTANCE Z2: Volt Level 0.000 puPHASE DISTANCE Z2: Delay 0.800 sPHASE DISTANCE Z2: Block BLOCK On (VO5)PHASE DISTANCE Z2: Target Latched PHASE DISTANCE Z2: Events Enabled
POWER SWING DETECT [GROUP 1]Function Enabled Source LINE (SRC 2)Shape Quad ShapeMode Two Step
Supv 0.600 puFwd Reach 17.34 ohmsQuad Fwd Mid 17.34 ohmsQuad Fwd Out 17.34 ohmsFwd Rca 89 degRev Reach 44.44 ohmsQuad Rev Mid 44.44 ohmsQuad Rev Out 44.44 ohmsRev Rca 90 degOuter Limit Angle 120 degMiddle Limit Angle 90 degInner Limit Angle 60 degOuter Rgt Bld 54.82 ohmsOuter Lft Bld 52.19 ohmsMidle Rgt Bld 54.82 ohmsMidle Lft Bld 52.19 ohmsInner Rgt Bld 18.27 ohms
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
POWER SWING DETECT [GROUP 1] (continued from last page)Inner Lft Bld 17.40 ohmsDelay 1 Pickup 0.300 sDelay 1 Reset 0.050 sDelay 2 Pickup 0.017 sDelay 3 Pickup 0.500 sDelay 4 Pickup 0.090 sSeal-In Delay 0.400 sTrip Mode Delayed Block BLOCK On (VO5)Target Latched Event Enabled
STATOR DIFFERENTIAL [GROUP 1]Function Enabled Line End Source LINE (SRC 2) Neutral End Source NEUTRL (SRC 1)
Pickup 0.100 puSlope 1 10 %Break 1 1.15 puSlope 2 80 %Break 2 4.00 puBlock OFFTargets Latched Events Enabled
PHASE CURRENTPHASE TOC [GROUP 1]PHASE TOC1: Function Enabled PHASE TOC1: Signal Source LINE (SRC 2)PHASE TOC1: Input Phasor PHASE TOC1: Pickup 0.953 puPHASE TOC1: Curve IEC Curve BPHASE TOC1: TD Multiplier 0.43
PHASE TOC1: Reset InstantaneousPHASE TOC1: Voltage Restraint Disabled PHASE TOC1: Block A OFFPHASE TOC1: Block B OFFPHASE TOC1: Block C OFFPHASE TOC1: Target Latched PHASE TOC1: Events Enabled
GENERATOR UNBALANCE [GROUP 1]Function Enabled Source LINE (SRC 2)Inom 0.829 puStage 1 Pickup 8.00 %Stage 1 K-Value 6.40Stage 1 Tmin 0.001 sStage 1 Tmax 1000.0 sStage 1 K-Reset 227.0 s
Stage 2 Pickup 5.60 %Stage 2 Pickup Delay 1.0 sBlock OFFTarget Latched Events Enabled
VOLTAGE ELEMENTSPHASE UV [GROUP 1]PHASE UV1: Function Enabled PHASE UV1: Signal Source LINE (SRC 2)PHASE UV1: Mode Phase to PhasePHASE UV1: Pickup 0.800 puPHASE UV1: Curve Definite TimePHASE UV1: Delay 5.00 sPHASE UV1: Minimum Voltage 0.000 puPHASE UV1: Block BLOCK On (VO5)PHASE UV1: Target Latched
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
PHASE UV [GROUP 1] (continued from last page)PHASE UV1: Events Enabled
PHASE OV [GROUP 1]PHASE OV1: Function Enabled PHASE OV1: Source LINE (SRC 2)PHASE OV1: Pickup 1.200 puPHASE OV1: Delay 3.00 sPHASE OV1: Reset Delay 0.00 sPHASE OV1: Block BLOCK On (VO5)PHASE OV1: Target Latched PHASE OV1: Events Enabled
AUXILIARY OV [GROUP 1]AUXILIARY OV 1: Function Enabled AUXILIARY OV 1: Source NEUTRL (SRC 1)AUXILIARY OV 1: Pickup 0.021 pu
AUXILIARY OV 1: Pickup Delay 5.00 sAUXILIARY OV 1: Reset Delay 0.00 sAUXILIARY OV 1: Block OFFAUXILIARY OV 1: Target Latched AUXILIARY OV 1: Events Enabled
VOLTS PER HERTZ [GROUP 1]VOLTS PER HERTZ 1: Function Enabled VOLTS PER HERTZ 1: Source LINE (SRC 2)VOLTS PER HERTZ 1: Pickup 1.10 puVOLTS PER HERTZ 1: Curves Inverse AVOLTS PER HERTZ 1: TD Multiplier 8.00VOLTS PER HERTZ 1: T Reset 600.0 sVOLTS PER HERTZ 1: Block SRC2 VT FUSE FAIL OPVOLTS PER HERTZ 1: Target Latched VOLTS PER HERTZ 1: Events Enabled VOLTS PER HERTZ 2: Function Enabled
VOLTS PER HERTZ 2: Source LINE (SRC 2)VOLTS PER HERTZ 2: Pickup 1.18 puVOLTS PER HERTZ 2: Curves Definite TimeVOLTS PER HERTZ 2: TD Multiplier 2.00VOLTS PER HERTZ 2: T Reset 600.0 sVOLTS PER HERTZ 2: Block SRC2 VT FUSE FAIL OPVOLTS PER HERTZ 2: Target Latched VOLTS PER HERTZ 2: Events Enabled
LOSS OF EXCITATION [GROUP 1]Function Enabled Source LINE (SRC 2)Center 1 49.42 ohmRadius 1 38.31 ohmUV Supervision Enable 1 Enabled Pickup Delay 1 0.060 sCenter 2 92.72 ohm
Radius 2 81.61 ohmUV Supervision Enable 2 Enabled Pickup Delay 2 0.600 sUV Supervision 0.900 puBlock SRC2 VT FUSE FAIL OPTarget Latched Events Enabled
ACCIDENTAL ENERGIZATION [GROUP 1]Function Enabled Source LINE (SRC 2)Accidental Energization Arming Mode UV AND OFFLINEAccidental Energization OC Pickup 0.200Accidental Energization UV Pickup 0.500Accidental Energization Offline 52G/b On(H7a)Block OFFTarget Latched
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
IEC 61850 GOOSE ANALOGS INPUTS (continued from last page)IEC61850 GOOSE Analog Input 3 Mode Default ValueIEC61850 GOOSE Analog Input 3 UnitsIEC61850 GOOSE Analog Input 3 PU Base 1.000IEC61850 GOOSE Analog Input 4 Default Value 1000.000IEC61850 GOOSE Analog Input 4 Mode Default ValueIEC61850 GOOSE Analog Input 4 UnitsIEC61850 GOOSE Analog Input 4 PU Base 1.000IEC61850 GOOSE Analog Input 5 Default Value 1000.000IEC61850 GOOSE Analog Input 5 Mode Default ValueIEC61850 GOOSE Analog Input 5 UnitsIEC61850 GOOSE Analog Input 5 PU Base 1.000IEC61850 GOOSE Analog Input 6 Default Value 1000.000IEC61850 GOOSE Analog Input 6 Mode Default ValueIEC61850 GOOSE Analog Input 6 UnitsIEC61850 GOOSE Analog Input 6 PU Base 1.000IEC61850 GOOSE Analog Input 7 Default Value 1000.000
IEC61850 GOOSE Analog Input 7 Mode Default ValueIEC61850 GOOSE Analog Input 7 UnitsIEC61850 GOOSE Analog Input 7 PU Base 1.000IEC61850 GOOSE Analog Input 8 Default Value 1000.000IEC61850 GOOSE Analog Input 8 Mode Default ValueIEC61850 GOOSE Analog Input 8 UnitsIEC61850 GOOSE Analog Input 8 PU Base 1.000IEC61850 GOOSE Analog Input 9 Default Value 1000.000IEC61850 GOOSE Analog Input 9 Mode Default ValueIEC61850 GOOSE Analog Input 9 UnitsIEC61850 GOOSE Analog Input 9 PU Base 1.000IEC61850 GOOSE Analog Input 10 Default Value 1000.000IEC61850 GOOSE Analog Input 10 Mode Default ValueIEC61850 GOOSE Analog Input 10 UnitsIEC61850 GOOSE Analog Input 10 PU Base 1.000IEC61850 GOOSE Analog Input 11 Default Value 1000.000IEC61850 GOOSE Analog Input 11 Mode Default Value
IEC61850 GOOSE Analog Input 11 UnitsIEC61850 GOOSE Analog Input 11 PU Base 1.000IEC61850 GOOSE Analog Input 12 Default Value 1000.000IEC61850 GOOSE Analog Input 12 Mode Default ValueIEC61850 GOOSE Analog Input 12 UnitsIEC61850 GOOSE Analog Input 12 PU Base 1.000IEC61850 GOOSE Analog Input 13 Default Value 1000.000IEC61850 GOOSE Analog Input 13 Mode Default ValueIEC61850 GOOSE Analog Input 13 UnitsIEC61850 GOOSE Analog Input 13 PU Base 1.000IEC61850 GOOSE Analog Input 14 Default Value 1000.000IEC61850 GOOSE Analog Input 14 Mode Default ValueIEC61850 GOOSE Analog Input 14 UnitsIEC61850 GOOSE Analog Input 14 PU Base 1.000IEC61850 GOOSE Analog Input 15 Default Value 1000.000IEC61850 GOOSE Analog Input 15 Mode Default ValueIEC61850 GOOSE Analog Input 15 Units
IEC61850 GOOSE Analog Input 15 PU Base 1.000IEC61850 GOOSE Analog Input 16 Default Value 1000.000IEC61850 GOOSE Analog Input 16 Mode Default ValueIEC61850 GOOSE Analog Input 16 UnitsIEC61850 GOOSE Analog Input 16 PU Base 1.000IEC61850 GOOSE Analog Input 17 Default Value 1000.000IEC61850 GOOSE Analog Input 17 Mode Default ValueIEC61850 GOOSE Analog Input 17 UnitsIEC61850 GOOSE Analog Input 17 PU Base 1.000IEC61850 GOOSE Analog Input 18 Default Value 1000.000IEC61850 GOOSE Analog Input 18 Mode Default ValueIEC61850 GOOSE Analog Input 18 UnitsIEC61850 GOOSE Analog Input 18 PU Base 1.000IEC61850 GOOSE Analog Input 19 Default Value 1000.000IEC61850 GOOSE Analog Input 19 Mode Default ValueIEC61850 GOOSE Analog Input 19 UnitsIEC61850 GOOSE Analog Input 19 PU Base 1.000
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ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
IEC 61850 GOOSE ANALOGS INPUTS (continued from last page)IEC61850 GOOSE Analog Input 20 Default Value 1000.000IEC61850 GOOSE Analog Input 20 Mode Default ValueIEC61850 GOOSE Analog Input 20 UnitsIEC61850 GOOSE Analog Input 20 PU Base 1.000IEC61850 GOOSE Analog Input 21 Default Value 1000.000IEC61850 GOOSE Analog Input 21 Mode Default ValueIEC61850 GOOSE Analog Input 21 UnitsIEC61850 GOOSE Analog Input 21 PU Base 1.000IEC61850 GOOSE Analog Input 22 Default Value 1000.000IEC61850 GOOSE Analog Input 22 Mode Default ValueIEC61850 GOOSE Analog Input 22 UnitsIEC61850 GOOSE Analog Input 22 PU Base 1.000IEC61850 GOOSE Analog Input 23 Default Value 1000.000IEC61850 GOOSE Analog Input 23 Mode Default ValueIEC61850 GOOSE Analog Input 23 UnitsIEC61850 GOOSE Analog Input 23 PU Base 1.000
IEC61850 GOOSE Analog Input 24 Default Value 1000.000IEC61850 GOOSE Analog Input 24 Mode Default ValueIEC61850 GOOSE Analog Input 24 UnitsIEC61850 GOOSE Analog Input 24 PU Base 1.000IEC61850 GOOSE Analog Input 25 Default Value 1000.000IEC61850 GOOSE Analog Input 25 Mode Default ValueIEC61850 GOOSE Analog Input 25 UnitsIEC61850 GOOSE Analog Input 25 PU Base 1.000IEC61850 GOOSE Analog Input 26 Default Value 1000.000IEC61850 GOOSE Analog Input 26 Mode Default ValueIEC61850 GOOSE Analog Input 26 UnitsIEC61850 GOOSE Analog Input 26 PU Base 1.000IEC61850 GOOSE Analog Input 27 Default Value 1000.000IEC61850 GOOSE Analog Input 27 Mode Default ValueIEC61850 GOOSE Analog Input 27 UnitsIEC61850 GOOSE Analog Input 27 PU Base 1.000IEC61850 GOOSE Analog Input 28 Default Value 1000.000
IEC61850 GOOSE Analog Input 28 Mode Default ValueIEC61850 GOOSE Analog Input 28 UnitsIEC61850 GOOSE Analog Input 28 PU Base 1.000IEC61850 GOOSE Analog Input 29 Default Value 1000.000IEC61850 GOOSE Analog Input 29 Mode Default ValueIEC61850 GOOSE Analog Input 29 UnitsIEC61850 GOOSE Analog Input 29 PU Base 1.000IEC61850 GOOSE Analog Input 30 Default Value 1000.000IEC61850 GOOSE Analog Input 30 Mode Default ValueIEC61850 GOOSE Analog Input 30 UnitsIEC61850 GOOSE Analog Input 30 PU Base 1.000IEC61850 GOOSE Analog Input 31 Default Value 1000.000IEC61850 GOOSE Analog Input 31 Mode Default ValueIEC61850 GOOSE Analog Input 31 UnitsIEC61850 GOOSE Analog Input 31 PU Base 1.000IEC61850 GOOSE Analog Input 32 Default Value 1000.000IEC61850 GOOSE Analog Input 32 Mode Default Value
IEC61850 GOOSE Analog Input 32 UnitsIEC61850 GOOSE Analog Input 32 PU Base 1.000
IEC 61850 GOOSE UINTEGERS INPUTSIEC61850 GOOSE UInteger Input 1 Default Value 1000IEC61850 GOOSE UInteger Input 1 Mode Default ValueIEC61850 GOOSE UInteger Input 2 Default Value 1000IEC61850 GOOSE UInteger Input 2 Mode Default ValueIEC61850 GOOSE UInteger Input 3 Default Value 1000IEC61850 GOOSE UInteger Input 3 Mode Default ValueIEC61850 GOOSE UInteger Input 4 Default Value 1000IEC61850 GOOSE UInteger Input 4 Mode Default ValueIEC61850 GOOSE UInteger Input 5 Default Value 1000IEC61850 GOOSE UInteger Input 5 Mode Default ValueIEC61850 GOOSE UInteger Input 6 Default Value 1000IEC61850 GOOSE UInteger Input 6 Mode Default ValueIEC61850 GOOSE UInteger Input 7 Default Value 1000
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GTG_G60_R1.URSZ:\1 STUDY COMPLETED\2011\GUDDU\SECTION 1 G60AB\R1\ DEVICE DEFINITIONFILES
ORDER CODE: G60-G04-HCH-F8F-H6P-M8H-P6P-U6P-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG G60ABTEXT COLOR
IEC 61850 GOOSE UINTEGERS INPUTS (continued from last page)IEC61850 GOOSE UInteger Input 7 Mode Default ValueIEC61850 GOOSE UInteger Input 8 Default Value 1000IEC61850 GOOSE UInteger Input 8 Mode Default ValueIEC61850 GOOSE UInteger Input 9 Default Value 1000IEC61850 GOOSE UInteger Input 9 Mode Default ValueIEC61850 GOOSE UInteger Input 10 Default Value 1000IEC61850 GOOSE UInteger Input 10 Mode Default ValueIEC61850 GOOSE UInteger Input 11 Default Value 1000IEC61850 GOOSE UInteger Input 11 Mode Default ValueIEC61850 GOOSE UInteger Input 12 Default Value 1000IEC61850 GOOSE UInteger Input 12 Mode Default ValueIEC61850 GOOSE UInteger Input 13 Default Value 1000IEC61850 GOOSE UInteger Input 13 Mode Default ValueIEC61850 GOOSE UInteger Input 14 Default Value 1000IEC61850 GOOSE UInteger Input 14 Mode Default ValueIEC61850 GOOSE UInteger Input 15 Default Value 1000
IEC61850 GOOSE UInteger Input 15 Mode Default ValueIEC61850 GOOSE UInteger Input 16 Default Value 1000IEC61850 GOOSE UInteger Input 16 Mode Default Value
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gGUDDU
Generators 339X224, 339X225
Overall Unit Protection - T60U
GE Energ
Setting Calculation Sheet
Generator Transformer Protection
A) Transformer and Generator Data
Transformer: 500 kV (HV) 15.00 kV(LV),YNd11 340 MVAT Z= 15.0%
Generator: 323.0 MVAG System: 500 kV (HVS) UAT: 35 MVAUAT
B) Relay , PT and CT Data
Relay Model: GE T60-G04-HCH-F8R-H6P-M8R-P6P-UXX-WXX
Relay Ranges: Percent Differential: 0.05 to 1.00 * 5A in 0.01 steps
Slope 1: 15-100%, Slope 2: 50-100%, Break 1: 1.0-2.0, Break 2: 2.0-30.0
Winding F1 Phase CT Ratio: 15,000 / 1 Generator Neutral CTs
Winding M1 Phase CT Ratio: 15,000 / 1 UAT High Side CTs
Winding M5 Phase CT Ratio: 600 / 1 GSU HV Side CTs
Winding M5 Ntrl CT Ratio: 600 / 1 GSU HV Side Neutral CTs
C) Differential Protection (87U) Settings Calculations
Setting Philosophy: 87U function uses internally compensated values of current.
Differential current setting (IDIFF ) = IF1 + IM1 + IM5. Differential instantaneous function
will operate for faults within the differential zone. The differential function will be
blocked using the average adaptive 2nd harmonic inrush inhibit function as well as
the 5th harmonic overexcitation inhibit function. The reference winding will be F1.
Reference Winding and Magnitude Compensation Calculations
IF1 = (MVAT) / (3 * LV) = 13,086 A Imargin = CTF1/IF1 = 1.146
IM5 = (MVAT - MVAUAT) / (3*HV) = 352.2 A Imargin = CTM5/IM5 = 1.704
IM1 = (MVAUAT) / (3 * LV) = 1,347.1 A Imargin = CTM1/IM1 = 11.135
Magnitude Compensation F1= [CTF1 x kV(LV)] / [CTF1 x kV(LV)] = 1.00 = MCF1
Magnitude Compensation M5= [CTM5 x kV(HV)] / [CTF1 x kV(LV)] = 1.33 = MCM5
Magnitude Compensation M1= [CTM1 x kV(LV)] / [CTF1 x kV(LV)] = 1.00 = MCM1
Expected Currents Through Each Winding During Normal Operation
IF1 = (MVAGEN) / (3 * LV) = 12,432 A, = 0.829 x CTF1= 1.00 pu
IM5 = (MVAGEN - MVAUAT) / (3 * HV) = 332.5 A, = 0.554 x CTM5= -0.89 pu
IM1 = (MVAUAT) / (3 * LV) = 1,347 A, = 0.090 x CTM1= -0.11 pu
IDIFF = IF1 + IM1 + IM5 = 0.000 pu ==> use 0.3pu pickup for % Diff
Expected Currents Through Each Winding During Startup Operation
IF1 = Max LCI current = 1,500 A, = 0.100 pu
IDIFF = IF1 + IM1 + IM5 = 0.100 pu ==> use >0.1pu pickup for % Diff
Section 2 T60U_R1 1
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gGUDDU
Generators 339X224, 339X225
Overall Unit Protection - T60U
GE Energ
Recommended Settings: Normal Startup
Percent Differential Pickup Setting : 0.30 pu 0.15 pu
Percent Differential Slope 1 Setting : 25% 25%
Percent Differential Break 1 Setting : 2.0 pu 1.0 pu
Percent Differential Slope 2 Setting : 90% 50%Percent Differential Break 2 Setting : 5.0 pu 2.0 pu
Inrush Inhibit Function: Adapt. 2nd Adapt. 2nd
Inrush Inhibit Mode: 2-out-3 2-out-3
Inrust Inhibit Level: 20% 20%
Overexcitation Inhibit Function: 5th 5th
Overexcitation Inhibit Level: 20% 20%
Instantaneous Differential Pickup : 5.0 disabled
D) HV Winding Restricted Ground Fault (87GT) Settings Calculations
Setting Philosophy: 87GT protection provides sensitive ground fault detection for low-
magnitude fault currents, primarily those close to the neutral point of a Wye-connected
winding. The transformer differential (87U), with differential current pickup of 0.2 per unit,will not detect HV winding earth faults with magnitudes less than 4500 A. 87GT ground
differential current, IG + IN + IA + IB + IC, is measured from the HV phase and ground CTs.
87GT Pickup Setting : 0.05 pu 30 A 87N Slope Setting : 50%
87GT Pickup Delay : 10.0 sec 87GT Reset Delay Setting : 1.00 sec.
TRANSFORMER SETTINGS AND CTs
Nomber of Windings: 3 DIFF / RSTR CHARACTERISTIC
W1 W2 W3 W4 W5 W6 DIFFERENTIAL- RESTRAINT GRAPH
Rated(MVA) 323 323 35 0 0 0 Diff. min. PKP 0.20 Slope1 25.0
Nom. (kV) 15 500 15 4.16 230 69 Kneepoint 1 2.00Connection DELTA WYE DELTA DELTA DELTA WYE Kneepoint 2 5.00 Slope2 90.0
Grounding NO YES NO YES NO YES
Angle WRT 0 -30 0 0 0 -30
CT primary 15000 600 15000 2000 1000 1000 Pre-calculated graph points >>Pre-calculated ratio of the point from the
CT sec. tap 1 1 1 5 5 5 Id/Ir, (%) Ph A Ph B Ph C characterist ic, corresponding to the same
Inom. Prim. 12432.3 373.0 1347.2 0.0 0.0 0.0 25.0 25.0 25.0 restraint as per the actual Id/Ir rat io. The trip
Inom.Sec. 0.829 0.622 0.090 0.000 0.000 0.000 occurs, when the actual Id/Ir ratio,(%) is bigger
Rotations ABC Magnitude Reference Winding #: 1 than the pre-calculated Id/Ir ratio, (%)
TEST CURRENTS ACTUAL VALUESIA IB IC DIFFERENTIAL CURRENTS
W1 Iad Ibd Icd
Magnitude 0.83 0.83 0.83 Magnitude 0.000 0.000 0.000
Angle 0.0 -120.0 120.0 Angle 0.0 -120.0 -240.0
W2
Magnitude 0.55 0.55 0.55 RESTRAINT CURRENTS
Angle 150.0 30.0 -90.0 Iar Ibr Icr
W3 Magnitude 0.829 0.829 0.829
Magnitude 0.09 0.09 0.09
Angle -180.0 60.0 -60.0 Actual Differential/Restraint Ratio
W4 Actual ph A % ph B % ph C %
Magnitude 0.00 0.00 0.00 Id/Ir ratio 0.0 0.0 0.0
Angle 0.0 0.0 0.0
W5 DIFF. OPERATION
Magnitude 0.00 0.00 0.00 NO TRIP
Angle 0.0 0.0 0.0 Ia Ib Ic
W6 No trip No trip No trip
Magnitude 0.00 0.00 0.00
Angle 0.0 0.0 0.0
0
1
2
3
4
5
6
7
89
10
11
12
13
14
15
16
17
18
19
20
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
I diff, pu
I res tr, pu
Operating Characteristic
Slope characteristics Iad Ibd Icd
Section 2 T60U_R1 2
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gGUDDU
Generators 339X224, 339X225
Overall Unit Protection - T60U
GE Energ
E) HV Winding Phase Overcurrent (50T/51T) Settings Calculations
Setting Philosophy: Set relay for IEC B curve. Set High Voltage winding (W1) TOC
unit pickup for 1.5 x GSU ONAF2 rating. Set TOC time dial to coordinate with the
transformer thermal and mechanical withstand curves per C57.109-1993.
Phase TOC1 Pickup: 589 A, = 0.981 CT multiples Time Dial: 0.90Phase IOC1 Pickup: 6,000 A, = 10.0 CT multiples
.5
.5
.6
.6
.8
.8
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100
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1000
1000
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10000
.01 .01
.02 .02
.03 .03
.04 .04
.05 .05
.06 .06
.07 .07
.08 .08
.09 .09.1 .1
.2 .2
.3 .3
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.9 .91 1
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6 67 78 89 9
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30 30
40 4050 50
60 6070 7080 8090 90
100 100
200 200
300 300
400 400
500 500
600 600700 700800 800900 900
1000 1000
CURRENT IN AMPERES X 10 AT 500000 VOLTS
CURRENT IN AMPERES X 10 AT 500000 VOLTS
T I M E I N
S E C O N D S
T I M E I N
S E C O N D S
EasyPower ®
TIME-CURRENT CURVES
General ElectricCompany
50/51T
FAULT: PHASE
DATE: May 6, 2013
BY:
REVISION: 1
GUDDU
GSUT-1340000 kVA15.9%
GSUT-1340000 kVAINRUSH
GSUT-1FLA
50T/51T31081A
50T/51TGE T6051/50 IEEEVery InverseCT Ratio = 600/1Tap = 0.981 (589A)Time Multiplier = 0.9Inst. Pickup = 10 (6000A)
50T/51T
GTG-1
GTG-1FLA BUS-4
BUS-1
GTG-1
323 MVA
GSUT-1
340 MVA
500 - 15 kV
15.88%
600/1
50T51T
Section 2 T60U_R1 3
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Mon May 06 14:03:22 2013 Version: 6.00 Settings (Enabled Features) PAGE 1
GTG_T60U_R1.URSZ:\1 STUDY COMPLETED\2011\GUDDU\SECTION 2 T60U\R1\ DEVICE DEFINITIONFILES
ORDER CODE: T60-G04-HCH-F8R-H6P-M8R-P6P-UXX-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG T60UTEXT COLOR
PRODUCT SETUPSECURITYCommand Password 0Setting Password 0Command Password Access Timeout 5 minSetting Password Access Timeout 30 minInvalid Password Attempts 3Password Lockout Duration 5 minPassword Access Events Disabled Local Setting Authorized ONRemote Setting Authorized ONAccess Authorized Timeout 30 min
DISPLAY PROPERTIESFlash Message Time 1.0 sDefault Message Timeout 300 sDefault Message Intensity (VFD Only) 25 %
Screen Saver Feature (LCD Only) Disabled Screen Saver Wait Time (LCD Only) 30 minCurrent Cutoff Level 0.020 puVoltage Cutoff Level 1.0 V
COMMUNICATIONSSERIAL PORTSCOM2 Selection RS485RS485 Com2 Baud Rate 115200RS485 Com2 Parity NoneRS485 Com2 Response Min Time 0 ms
NETWORK IP Address 3. 94.244.210IP Subnet Mask 255.255.252. 0Gateway IP Address 3. 94.244. 1Ethernet Operation Mode Full-Duplex
OSI Network Address (NSAP) 33 33 20 33 33 20 32 30 20 33 33 20 33 33 20 32 30 20 33 32
MODBUS PROTOCOLModbus Slave Address 254Modbus TCP Port Number 502
IEC 61850GSSE / GOOSE CONFIGURATION
TRANSMISSIONGENERALDefault GSSE/GOOSE Update Time 60 s
GSSEFunction Enabled ID GSSEOutDestination MAC 00 00 00 00 00 00
TX CONFIGURABLE GOOSEGOOSEOut 1 Function Enabled GOOSEOut 1 ID GOOSEOut_1GOOSEOut 1 Destination MAC 00 00 00 00 00 00GOOSEOut 1 VLAN Priority 4GOOSEOut 1 VLAN ID 0GOOSEOut 1 ETYPE APPID 0GOOSEOut 1 ConfRev 1GOOSEOut 1 Retransmission Curve Relaxed GOOSEOut 2 Function Enabled GOOSEOut 2 ID GOOSEOut_2GOOSEOut 2 Destination MAC 00 00 00 00 00 00GOOSEOut 2 VLAN Priority 4GOOSEOut 2 VLAN ID 0GOOSEOut 2 ETYPE APPID 0GOOSEOut 2 ConfRev 1GOOSEOut 2 Retransmission Curve Relaxed
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Mon May 06 14:03:22 2013 Version: 6.00 Settings (Enabled Features) PAGE 2
GTG_T60U_R1.URSZ:\1 STUDY COMPLETED\2011\GUDDU\SECTION 2 T60U\R1\ DEVICE DEFINITIONFILES
ORDER CODE: T60-G04-HCH-F8R-H6P-M8R-P6P-UXX-WXXVERSION: 5.7XDESCRIPTION: GUDDU GTG T60UTEXT COLOR
TX CONFIGURABLE GOOSE (continued from last page)GOOSEOut 3 Function Enabled GOOSEOut 3 ID GOOSEOut_3GOOSEOut 3 Destination MAC 00 00 00 00 00 00GOOSEOut 3 VLAN Priority 4GOOSEOut 3 VLAN ID 0GOOSEOut 3 ETYPE APPID 0GOOSEOut 3 ConfRev 1GOOSEOut 3 Retransmission Curve Relaxed GOOSEOut 4 Function Enabled GOOSEOut 4 ID GOOSEOut_4GOOSEOut 4 Destination MAC 00 00 00 00 00 00GOOSEOut 4 VLAN Priority 4GOOSEOut 4 VLAN ID 0GOOSEOut 4 ETYPE APPID 0GOOSEOut 4 ConfRev 1GOOSEOut 4 Retransmission Curve Relaxed
GOOSEOut 5 Function Enabled GOOSEOut 5 ID GOOSEOut_5GOOSEOut 5 Destination MAC 00 00 00 00 00 00GOOSEOut 5 VLAN Priority 4GOOSEOut 5 VLAN ID 0GOOSEOut 5 ETYPE APPID 0GOOSEOut 5 ConfRev 1GOOSEOut 5 Retransmission Curve Relaxed GOOSEOut 6 Function Enabled GOOSEOut 6 ID G