Dynamic Models Package „Standard-1“ GMB Dynamic Models for PSS® Software Product Suite
Revision 1.3 / Dec. 2010
Table of Contents Revision History.................................................................... History.... ................................................................ .............................................................. ............. 4 1
Introduction ...................................................... ........................................................... ......................... 5
2
License Group “Standard-1”................. “Standard-1”................................................................................. ................................................................ .............................. 6
2.1
Exciters (AVR).......................................................................................... .................................. 6 2.1.1 BBSEX1_gmb - Brown-Boveri Brown-Boveri static static excitation system model.................................... 6 2.1.2 BUDCZT_gmb BUDCZT_gmb - Czech proportional/integral proportional/integral excitation system system model ....................... 7 2.1.3 EMAC1T_gmb - AEP AEP Rockport excitation system model............................................ 8 2.1.4 ESAC4A_gmb ESAC4A_gmb - 1992 IEEE type AC4A AC4A excitation system model model ............................. 10 2.1.5 ESAC5A_gmb ESAC5A_gmb - 1992 IEEE type AC5A AC5A excitation system model model ............................. 11 2.1.6 ESAC6A_gmb ESAC6A_gmb - 1992 IEEE type AC6A AC6A excitation system model model ............................. 12 2.1.7 ESAC8B_gmb - Basler Basler DECS model ................................................................... ...... 13 2.1.8 ESDC1A_gmb ESDC1A_gmb - 1992 IEEE type DC1A DC1A excitation system model model ............................. 14 2.1.9 ESDC2A_gmb ESDC2A_gmb - 1992 IEEE type DC2A DC2A excitation system model model ............................. 15 2.1.10 ESST1A_gmb ESST1A_gmb - 1992 IEEE type ST1A ST1A excitation system model............................... 16 2.1.11 ESST2A_gmb ESST2A_gmb - 1992 IEEE type ST2A ST2A excitation system model............................... 17 2.1.12 EXAC1_gmb - 1981 IEEE type AC1 excitation system system model .................................. 18 2.1.13 EXAC1A_gmb EXAC1A_gmb - Modified type AC1 excitation system model .................................. 19 2.1.14 EXAC2_gmb - 1981 IEEE type AC2 excitation system system model .................................. 20 2.1.15 EXAC4_gmb - 1981 IEEE type AC4 excitation system system model .................................. 22 2.1.16 EXDC2_gmb - 1981 IEEE type DC2 excitation system system model .................................. 23 2.1.17 EXNEBB_gmb EXNEBB_gmb - Bus or solid fed SCR bridge excitation system model type NEBB (NVE) ................................................................ ...................................... 24 2.1.18 EXST1_gmb - 1981 IEEE type ST1 excitation excitation system model.................................... model .................................... 25 2.1.19 EXST2_gmb - 1981 IEEE type ST2 excitation excitation system model.................................... model .................................... 26 2.1.20 EXST2A_gmb EXST2A_gmb - Modified 1981 IEEE type ST2 excitation system model ................. 27 2.1.21 IEEET1_gmb - 1968 IEEE IEEE type 1 excitation system model ....................................... 28 2.1.22 IEEET2_gmb - 1968 IEEE IEEE type 2 excitation system model ....................................... 29 2.1.23 IEEET4_gmb - 1968 IEEE IEEE type 4 excitation system model ....................................... 30 2.1.24 IEEET5_gmb - Modified 1968 IEEE type 4 excitation system model........................ 31 2.1.25 IEEEX1_gmb IEEEX1_gmb - 1979 IEEE type 1 excitation system model and 1981 IEEE type DC1 model ............................................................ .............................................. 32 2.1.26 IEEEX2_gmb IEEEX2_gmb - 1979 IEEE type 2 excitation system model ....................................... 33 2.1.27 IEEEX4_gmb IEEEX4_gmb - 1979 IEEE type 4 excitation system, 1981 IEEE type DC3 and 1992 IEEE type DC3A models.......................................... .................................. 34 2.1.28 IEET1A_gmb IEET1A_gmb - Modified 1968 IEEE type 1 excitation system model ....................... 35 2.1.29 IEET5A_gmb IEET5A_gmb - Modified 1968 IEEE type 4 excitation system model ....................... 36 2.1.30 IEEX2A_gmb IEEX2A_gmb - 1979 IEEE type 2A excitation system model.... model.................................... ................................ 37 2.1.31 IVOEX_gmb IVOEX_gmb - IVO excitation system model ............................................................. 38 2.1.32 OEX3T_gmb OEX3T_gmb - Ontario Hydro IEEE Type ST1 excitation system with semicontinuous and acting terminal terminal voltage limiter............................................ 39 2.1.33 REXSYS_gmb REXSYS_gmb - General purpose rotating excitation system model .......................... 40 2.1.34 SCRX_gmb - Bus or solid fed SCR bridge excitation system model.......................... model.......................... 42 2.1.35 SEXS_gmb - Simplified Simplified excitation system model model ...................................................... 43 2.1.36 URST5T_gmb URST5T_gmb - IEEE proposed type ST5B excitation system........... ........................ 44
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2.2
Governors (GOV)...................................................................................... ................................ 45 2.2.1 CRCMGV_gmb - Cross compound compound turbine-governor model...................................... 45 2.2.2 DEGOV_gmb DEGOV_gmb - Woodward diesel governor model .................................................... 46 2.2.3 DEGOV1_gmb DEGOV1_gmb - Woodward diesel governor model .................................................. 47 2.2.4 GAST_gmb - Gas turbine-governor model ............................................................. .... 48 2.2.5 HYGOV2_gmb HYGOV2_gmb - Hydro turbine-governor turbine-governor model model ................................................. ...... 49 2.2.6 IEEEG1_gmb IEEEG1_gmb - 1981 IEEE type 1 turbine-governor turbine-governor model............................. ........... 50 2.2.7 IEEEG2_gmb IEEEG2_gmb - 1981 IEEE type 2 turbine-governor turbine-governor model............................. ........... 51 2.2.8 IEEEG3_gmb IEEEG3_gmb - 1981 IEEE type 3 turbine-governor turbine-governor model............................. ........... 52 2.2.9 IEESGO_gmb IEESGO_gmb - 1973 IEEE standard turbine-governor model.................................... model.................................... 53 2.2.10 IVOGO_gmb IVOGO_gmb - IVO IVO turbine-governor turbine-governor model...................................... ........................ 54 2.2.11 PIDGOV_gmb PIDGOV_gmb - Hydro Hydro turbine and governor governor model .................................................. 55 2.2.12 TGOV1_gmb TGOV1_gmb - Steam turbine-governor model............................... model............................... ............................ 57 2.2.13 TGOV2_gmb TGOV2_gmb - Steam turbine-governor turbine-governor model with fast fast valving ............................... 58 2.2.14 TGOV3_gmb TGOV3_gmb - Modified IEEE type 1 turbine-governor model with fast valving............................................................ valving ............................................................ .............................................. 59 2.2.15 WPIDHY_gmb WPIDHY_gmb - Woodward P.I.D. hydro governor governor model ........................................ 60 2.2.16 WSIEG1_gmb WSIEG1_gmb - WECC modified 1981 IEEE type 1 turbine-governor model........... 61
Revision 1.3 / Dec. 2010
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Revision History Date
Revision
Author
Description
2008-01-30
1.1
Ruhle
Initial Revision
2008-05-01
1.2
Beissler
Test procedure updated + table of contents added
2010-12-22
1.3
Medak
Update
Revision 1.3 / Dec. 2010
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1
Introduction
Documentation of the available “User-drawn” BOSL controllers for the PSS® Product Suite, namely:
PSS®E PSS®SINCAL PSS® NETOMAC
The dynamic models described here are built with the Graphical Model Builder (GMB) and consist of:
Graphical model representation BOSL Macro description
Revision 1.3 / Dec. 2010
*.vsd *.mac
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2
License Group “Standard-1”
2.1
Exciters (AVR)
2.1.1
BBSEX1_gmb - Brown-Boveri static excitation system model
2.1.1.1
BBSEX1_gmb - Block Diagram
2.1.1.2
BBSEX1_gmb - Parameters
Description TF (sec) K T1 (> 0) (sec) T2 (>0) (sec) T3 (sec) T4 (sec) VRMAX VRMIN EFDMAX EFDMIN Switch
2.1.1.3
Default 0,025 10,01 0,1 0,1 1 4 5 -3 4,5 0 1
Min 0 10,01 0,021 0,021 0 0 0,51 -9,99
Max 0,49 499,99 9,99 9,99
User value
9,99 -0,01
®
BBSEX1_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'BBSEX1_gmb', 38, '1', 0.025 10.01 0.1 0.1 1 4 5 -3 4.5 0 1 /
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2.1.2
BUDCZT_gmb - Czech proportional/integral excitation system model
2.1.2.1
BUDCZT_gmb - Block Diagram
ECOMP
VREF
+
VOTHSG
EC
1 1 + s TR
VERR
VC
VADD
1 s TI
VOEL
VSUM
UREG
KA 1 + s TA
VA
KE 1 + s TE
Efd
VSS KP
VUEL
VT1
VUEL
VKP
PSS
VOEL SIEMENS AG
E D SE PTI SW Da te:
0 8. 11 .2 010
Name:
PTI NC 1
Name of Controller: BUDCZT
Type of Controller: EXCITER
Project: BUDCZT_gmb.mac
2.1.2.2
BUDCZT_gmb - Parameters
Description KP (pu) KA > 0 (pu) KE > 0 (pu) TR (sec) TI > 0 (sec) TA (sec) TE (sec) URMAX (pu) URMIN (pu) EFDMAX (pu) EFDMIN (pu)
2.1.2.3
Default 12 3,4 1 0, 2 1 0, 3 0,2 10 -10 -7,5 -7,5
Min
Max
User value
®
BUDCZT_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'BUDCZT_gmb', 38, '1', 12 3.4 1 0.2 1 0.3 0.2 10 -10 7.5 -7.5 /
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2.1.3
EMAC1T_gmb - AEP Rockport excitation system model
2.1.3.1
EMAC1T_gmb - Block Diagram
Revision 1.3 / Dec. 2010
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2.1.3.2
EMAC1T_gmb - Parameters
Description TR (sec) T4 (sec) T3 (sec) KA TA (sec) VRMAX VRMIN TE > 0 (sec) KF TF > 0 (sec) KC KD KE E1 SE (E1) E2 SE (E2) T6 (sec) T5 (sec) T2 (sec) T1 (sec) KFE TFE (sec)
2.1.3.3
Default 0,025 0,1 0,2 10 0,1 7 -7 0,14 2,7 12 0,1 0,4 1 4 0,4 5 0,5 0,2 0,2 2 0,06 2 3
Min
Max
User value
®
EMAC1T_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'EMAC1T_gmb', 38, '1', 0.025 0.1 0.2 10 0.1 7 -7 0.14 2.7 12 0.1 0.4 1 4 0.4 5 0.5 0.2 0.2 2 0.06 2 3/
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2.1.4
ESAC4A_gmb - 1992 IEEE type AC4A excitation system model
2.1.4.1
ESAC4A_gmb - Block Diagram
2.1.4.2
ESAC4A_gmb - Parameters
Description TR VIMAX VIMIN TC TB (sec) KA TA VRMAX VRMIN KC
2.1.4.3
Default 0,01 0,2 -0,19 1 1 80 0,4 4,3 -2,5 0,1
Min 0 0,01 -0,19 0 0,041 50,01 0 3 -8 0
Max 0,099 0,2 0 9,99 19,99 1000 0,49 8 -3 0,29
User value
®
ESAC4A_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'ESAC4A_gmb', 38, '1', 0.01 0.2 -0.19 1 1 80 0.4 4.3 -2.5 0.1 /
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2.1.5
ESAC5A_gmb - 1992 IEEE type AC5A excitation system model
2.1.5.1
ESAC5A_gmb - Block Diagram
2.1.5.2
ESAC5A_gmb - Parameters
Description TR (sec) KA TA (sec) VRMAX or zero VRMIN KE or zero TE > 0 (sec) KF TF1 > 0 (sec) TF2 (sec) TF3 (sec) E1 SE (E1) E2 SE (E2)
2.1.5.3
Default 0,025 50 0,1 6 -6 1 0,041 0,01 1 0,1 0,1 4 0,4 5 0,5
Min 0 10,01 0 0,51 -9,99 -1 0,041 0,01 0,041 0 0 0 0 0 0
Max 0,49 499,99 0,099 9,99 -0,01 1 0,99 0,29 1,49
User value
0,99
®
ESAC5A_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'ESAC5A_gmb', 38, '1', 0.025 50 0.1 6 -6 1 0.041 0.01 1 0.1 0.1 4 0.4 5 0.5 /
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2.1.6
ESAC6A_gmb - 1992 IEEE type AC6A excitation system model
2.1.6.1
ESAC6A_gmb - Block Diagram
2.1.6.2
ESAC6A_gmb - Parameters
Description TR (sec) KA TA (sec) TK (sec) TB (sec) TC (sec) VAMAX VAMIN VRMAX VRMIN TE (>0) (sec) VFELIM KH VHMAX TH (sec) TJ (sec) KC KD KE E1 SE (E1) E2 SE (E2)
2.1.6.3
Default 0,025 50 0,1 1 0,1 0,2 10 -10 20 -20 1 0,4 0 7 0,02 1 0,35 1 0,034 4 0,4 5 0,5
Min 0 0,01 0 0,01 0 0 0,01 -10 0,01 -100 0,021 0,01 0 0,01 0 0 0 0,01 0,01 0 0 0 0
Max 0,49 999,99 9,99 9,99 19,99 19,99 10 -0,01 100 -0,01 1,99 20 1,1 100 1 1 1 2 2
User value
1
®
ESAC6A_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'ESAC6A_gmb', 38, '1', 0.025 50 0.1 1 0.1 0.2 10 -10 20 -20 1 0.4 0 7 0.02 1 0.35 1 0.034 4 0.4 5 0.5 / Revision 1.3 / Dec. 2010
Page 12 of 62
2.1.7
ESAC8B_gmb - Basler DECS model
2.1.7.1
ESAC8B_gmb - Block Diagram
2.1.7.2
ESAC8B_gmb - Parameters
Description TR (sec) KP KI KD TD (sec) KA TA VRMAX or zero VRMIN TE > 0 (sec) KE or zero E1 SE (E1) E2 SE (E2)
2.1.7.3
Default 0,1 10,01 10,01 10,01 0,4 1 0,1 10 -0,99 0,1 0,1 4 0,4 5 0,5
Min 0 10,01 10,01 10,01 0 0,01 0 0,01 -0,99 0 -1 0 0 0 0
Max 0,49 499,99 499,99 499,99 0,49 1 1 10 1,49
User value
1 0,99
®
ESAC8B_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'ESAC8B_gmb', 38, '1', 0.1 10.01 10.01 10.01 0.4 1 0.1 10 -0.99 0.1 0.1 4 0.4 5 0.5 /
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2.1.8
ESDC1A_gmb - 1992 IEEE type DC1A excitation system model
2.1.8.1
ESDC1A_gmb - Block Diagram
2.1.8.2
ESDC1A_gmb - Parameters
Description TR (sec) KA TA (sec) TB (sec) TC (sec) VRMAX or zero VRMIN KE or zero TE (> 0) (sec) KF TF1 (> 0) (sec) Switch E1 SE (E1) E2 SE (E2)
2.1.8.3
Default 0,1 50 0,1 0,1 0,2 9,99 -9,99 1 0,2 0,11 1 1 2,47 0,035 3,5 0,5
Min 0 10,01 0 0 0 0,51 -9,99 -1 0,041 0,01 0,041 0 0 0 0 0
Max 0,49 499,99 0,99
User value
9,99 -0,01 1 0,99 0,29 1,49 1 0,99
®
ESDC1A_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'ESDC1A_gmb', 38, '1', 0.1 50 0.1 0.1 0.2 9.99 -9.99 1 0.2 0.11 1 1 2.47 0.035 3.5 0.5 /
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2.1.9
ESDC2A_gmb - 1992 IEEE type DC2A excitation system model
2.1.9.1
ESDC2A_gmb - Block Diagram
2.1.9.2
ESDC2A_gmb - Parameters
Description TR (sec) KA TA (sec) TB (sec) TC (sec) VRMAX or zero VRMIN KE or zero TE (> 0) (sec) KF TF1 (> 0) (sec) Switch E1 SE (E1) E2 SE (E2)
2.1.9.3
Default 0,1 10,01 0,06 0,1 0,2 9,99 -9,99 1 0,08 0,11 1 1 2,47 0,035 3,5 0,5
Min 0 10,01 0 0 0 0,51 -9,99 -1 0,041 0,01 0,041 0 0 0 0 0
Max 0,49 499,99 0,99
User value
9,99 -0,01 1 1,99 0,29 1,49 1 0,99
®
ESDC2A_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'ESDC2A_gmb', 38, '1', 0.1 10.01 0.06 0.1 0.2 9.99 -9.99 1 0.08 0.11 1 1 2.47 0.035 3.5 0.5 /
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2.1.10
ESST1A_gmb - 1992 IEEE type ST1A excitation system model
2.1.10.1
ESST1A_gmb - Block Diagram
2.1.10.2
ESST1A_gmb - Parameters
Description TR (sec) VIMAX VIMIN TC (sec) TB (sec) TC1 (sec) TB1 (sec) KA TA (sec) VAMAX VAMIN VRMAX VRMIN KC KF TF > 0 (sec) KLR ILR
2.1.10.3
Default 0,1 0,2 -0,2 0,01 10 0,01 0,1 51 0,01 4,6 -4,6 3,4 -3,4 0,01 0,1 0,31 1 2
Min 0 0 -0,3 0 0,04 0 0,04 50 0 3 -8 3 -8 0 0 0,3 0 0
Max 0,1 0,2 0 10 20 10 20 1000 0,5 8 -3 8 -3 0,3 0,3 1,5 5 5
User value
®
ESST1A_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'ESST1A_gmb', 38, '1', 1 1 0.1 0.2 -0.2 0.01 10 0.01 0.1 51 0.01 4.6 -4.6 3.4 -3.4 0.01 0.1 0.31 1 2 /
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2.1.11
ESST2A_gmb - 1992 IEEE type ST2A excitation system model
2.1.11.1
ESST2A_gmb - Block Diagram
2.1.11.2
ESST2A_gmb - Parameters
Description TR (sec) KA TA (sec) VRMAX VRMIN KE TE (>0) (sec) KF TF (>0) (sec) KP KI KC EFDMAX
2.1.11.3
Default 0,0001 120 0,1 1,49 -1 1 0,3 0,03 1 1,19 6 0,3 6,5
Min 0 10,01 0 0,51 -1,49 0,041 0,041 0,01 0,041 1,19 0 0,01 1,01
Max 0,49 999,99 0,99 1,49 0,49 1 1,99 0,29 1,49 1,19 8 1,99 9,99
User value
ESST2A_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'ESST2A_gmb', 38, '1', 0.0001 120 0.1 1.49 -1 1 0.3 0.03 1 1.19 6 0.3 6.5 /
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2.1.12
EXAC1_gmb - 1981 IEEE type AC1 excitation system model
2.1.12.1
EXAC1_gmb - Block Diagram VUEL
VUEL
VOEL
VOEL
VOTHSG
ETERM
PSS
EC
1 1 + s TR
VC
Efd
X E F
VREF
-
VSS
+
REGIN
1+sTc 1 + s Tb
VF
XADIFD
IFD
KD
VALL
KA 1 + s TA
VR
VTE
VE
1 s TE
s KF 1 + s TF
VKD
VKE
SAT
KE
Saturation
SIEMENS AG
E D SE PTI SW D at e:
3 0. 09 .2 01 0
N am e:
P TI NC 1
Controller name: EXAC1_gmb Controller type: EXCITER
Project: EXAC1_gmb.mac
2.1.12.2
EXAC1_gmb - Parameters
Description TR (sec) TB (sec) TC (sec) KA TA (sec) VRMAX VRMIN TE > 0 (sec) KF TF > 0 (sec) KC KD KE E1 SE (E1) E2 SE (E2)
2.1.12.3
Default 0,01 0,1 0,2 80 0,2 14,99 -14,99 0,2 0 1 0,5 0,4 1 4 0,4 5 0,5
Min 0 0 0 0,01 0 0,01 -14,99 0,021 0 0,021 0 0 0 0 0 5 0,5
Max 0,49 19,99 19,99 999,99 9,99 14,99 -0,01 1,99 0,29 1,49 1 1 1
User value
1
EXAC1_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'EXAC1_gmb', 38, '1', 0.01 0.1 0.2 80 0.2 14.99 -14.99 0.2 0 1 0.5 0.4 1 4 0.4 5 0.5 / Revision 1.3 / Dec. 2010
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2.1.13
EXAC1A_gmb - Modified type AC1 excitation system model
2.1.13.1
EXAC1A_gmb - Block Diagram
2.1.13.2
EXAC1A_gmb - Parameters
Description TR (sec) TB (sec) TC (sec) KA TA (sec) VRMAX VRMIN TE > 0 (sec) KF TF > 0 (sec) KC KD KE E1 SE (E1) E2 SE (E2)
2.1.13.3
Default 0,1 0,1 0,2 80 0,2 10 -10 0,2 0,03 1 0,5 0,4 1 4 0,4 5 0,5
Min 0 0 0 0,01 0 0,01 -10 0,021 0 0,021 0 0 0,01 0 0 0 0
Max 0,49 19,99 19,99 999,99 9,99 10 -0,01 1,99 0,29 1,49 1 1 1
User value
1
EXAC1A_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'EXAC1A_gmb', 38, '1', 0.1 0.1 0.2 80 0.2 10 -10 0.2 0.03 1 0.5 0.4 1 4 0.4 5 0.5 / Revision 1.3 / Dec. 2010
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2.1.14
EXAC2_gmb - 1981 IEEE type AC2 excitation system model
2.1.14.1
EXAC2_gmb - Block Diagram
Revision 1.3 / Dec. 2010
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2.1.14.2
EXAC2_gmb - Parameters
Description TR (sec) TB (sec) TC (sec) KA TA (sec) VAMAX VAMIN KB VRMAX VRMIN TE > 0 (sec) KL KH KF TF > 0 (sec) KC KD KE VLR E1 SE (E1) E2 SE (E2)
2.1.14.3
Default 0,025 0,1 0,2 12 0,2 8 -8 32 6 -6 0,3 0,1 0,005 0,15 1 0,03 0,1 0,2 6 4 0,4 5 0,5
Min 0 0 0 0,01 0 0,01 -10 0 0 -500 0,021 0 0 0 0,021 0 0 0,01 5,01 0 0 0 0
Max 0,49 19,99 19,99 999,99 9,99 9,99 -0,01 499,99 500 0 1,99 1,1 1,1 0,29 1,49 1 1 1 10
User value
1
®
EXAC2_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'EXAC2A_gmb', 38, '1', 0.025 0.1 0.2 12 0.2 8 -8 32 6 -6 0.3 0.1 0.005 0.15 1 0.03 0.1 0.2 6 4 0.4 5 0.5 /
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2.1.15
EXAC4_gmb - 1981 IEEE type AC4 excitation system model
2.1.15.1
EXAC4_gmb - Block Diagram
2.1.15.2
EXAC4_gmb - Parameters
Description TR (sec) VIMAX VIMIN TC TB (sec) KA TA VRMAX VRMIN KC
2.1.15.3
Default 0,09 0,2 -0,19 0,1 0,2 50,01 0,1 4,91 -4,91 0,1
Min 0 0,01 -0,19 0 0,041 50,01 0 3 -8 0
Max 0,09 0,2 0 9,99 19,99 1000 0,49 8 -3 0,29
User value
®
EXAC4_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'USRMBL', 'EXAC4_gmb', 38, '1', 0.09 0.2 -0.19 0.1 0.2 50.01 0.1 4.91 -4.91 0.1 /
Revision 1.3 / Dec. 2010
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2.1.16
EXDC2_gmb - 1981 IEEE type DC2 excitation system model
2.1.16.1
EXDC2_gmb - Block Diagram UPPER
LOWER
ECOMP
VREF
+
VOTHSG
VOEL
EC
VERR
K 1+sT
VERP
VC
DV
K(1+sT) 1 + s T1
DV1
K 1+sT
VR
Efd
PSS SAT
Saturation
OEL
VKE VUEL
EFDX
1 sT
K
UEL
VFB
s T1 1 + s T2
SIEMENS AG
E D SE PTI SW Dummy parameter(s) neccessary to comply with PSS(r)E Model
D at at e: e:
0 1. 1. 10 10 .2 .2 01 01 0
N am am e: e:
P TI TI NC NC 1
Controller name: EXDC2_gmb
Controller type: Excitation
Project: Project: EXDC2_g EXDC2_gmb.m mb.mac ac
2.1.16.2
EXDC2_gmb - Parameters
Description TR (sec) KA TA (sec) TB (sec) TC (sec) VRMAX or zero VRMIN KE or zero TE (> 0) (sec) KF TF1 (> 0) (sec) Switch E1 SE (E1) E2 SE (E2)
2.1.16.3
Default 0, 1 20 0,1 0,1 0,2 3,6 -3,6 1 0,1 0,2 1,49 0 4 0,4 5 0,5
Min 0 10,01 0 0 0 0,51 -9,99 -1 0,041 0,01 0,041 0 0 0 0 0
Max 0,49 499,99 0,99
User value
9,99 -0,01 1 1,99 0,29 1,49 1
EXDC2_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'USRMBL', 'EXDC2_gmb', 38, '1', 0.1 20 0.1 0.1 0.2 3.6 -3.6 1 0.1 0.2 1.49 0 4 0.4 5 0.5 /
Revision 1.3 / Dec. 2010
Page 23 of 62
2.1.17
EXNEBB_gmb - Bus or solid fed SCR bridge excitation system model type NEBB (NVE)
2.1.17.1
EXNEBB_gmb - Block Diagram
2.1.17.2
EXNEBB_gmb - Parameters
Description TR K1 T11 T12 T13 K2 T21 T22 T23 VRMAX pu VRMIN pu IFMAX (max.field current) pu IFMIN (min. field current) pu FLAG
2.1.17.3
Default 0,02 0,2 0,2 0,1 0,02 3 0,2 0,1 0,3 10 -10 5 -5 1
Min 0 0 0 0 0 0 0 0 0
Max
User value
®
EXNEBB_gmb - Example dyr-record for PSS E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'USRMBL', 'EXNEBB_gmb', 38, '1', 0.02 0.2 0.2 0.1 0.02 3 0.2 0.1 0.3 10 -10 5 -5 1 /
Revision 1.3 / Dec. 2010
Page 24 of 62
2.1.18
EXST1_gmb - 1981 IEEE type ST1 excitation system model
2.1.18.1
EXST1_gmb - Block Diagram
2.1.18.2
EXST1_gmb - Parameters
Description TR (sec) VIMAX VIMIN TC TB (sec) KA TA (sec) VRMAX VRMIN KC KF TF (> 0) (sec)
2.1.18.3
Default 0,02 0,2 0 1 1 80 0,05 8 -3 0,2 0,1 1
Min 0 0 -0,29 0 0,041 50,01 0,041 3 -8 0 0,01 0,31
Max 0,09 0,2 0 9,99 19,99 1000 0,49 8 -3 0,29 0,3 1,5
User value
EXST1_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'EXST1_gmb', 38, '1', 0.02 0.2 0 1 1 80 0.05 8 -3 0.2 0.1 1 /
Revision 1.3 / Dec. 2010
Page 25 of 62
2.1.19
EXST2_gmb - 1981 IEEE type ST2 excitation system model
2.1.19.1
EXST2_gmb - Block Diagram
2.1.19.2
EXST2_gmb - Parameters
Description TR (sec) KA TA (sec) VRMAX VRMIN KE TE (>0) (sec) KF TF (>0) (sec) KP KI KC EFDMAX
2.1.19.3
Default 0,025 100 0,1 5 -5 1 0,5 0,01 0,6 1,19 1,2 1 4
Min 0 10,01 0
Max 0,49 999,99 0,99
0,041 0,041 0,01 0,041 1,19 0 0,01 1,01
1 1,99 0,29 1,49 1,19 8 1,99 9,99
User value
EXST2_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'EXST2_gmb', 38, '1', 0.025 100 0.1 5 -5 1 0.5 0.01 0.6 1.19 1.2 1 4 /
Revision 1.3 / Dec. 2010
Page 26 of 62
2.1.20
EXST2A_gmb - Modified 1981 IEEE type ST2 excitation system model
2.1.20.1
EXST2A_gmb - Block Diagram VUEL
VUEL
VOEL
VOEL
VOTHSG
PSS
VF ETERM
VREF
+
GENCRE
VT
K 1+sT
s T1 1 + s T2
VC
VERR
VERP
DV
K 1+sT
VR
x
DE VRB
1 sT
GENVIM
GENCIM
XADIFD
Efd
I.R
EFD1 GENVRE
Efd
V.R
VE
K
V.I
I.I
IFD
FEX
FEX
VB
SIEMENS AG
E D SE PTI SW D at e:
0 1. 10 .2 01 0
Name:
PTI NC 1
Controller name: EXST2A_gmb Controller type: EXCITER
Project: EXST2A_gmb.mac
2.1.20.2
EXST2A_gmb - Parameters
Description TR (sec) KA TA (sec) VRMAX VRMIN KE TE (> 0) (sec) KF TF (> 0) (sec) KP KI KC EFDMAX
2.1.20.3
Default 0,1 10,01 0,1 1,49 -1,49 0,1 0,3 0,01 1 1,19 0 0,1 4
Min 0 10,01 0 0,51 -1,49 0,041 0,041 0,01 0,041 1,19 0 0,01 1,01
Max 0,49 999,99 0,99 1,49 0,49 1 1,99 0,29 1,49 1,19 8 1,99 9,99
User value
EXST2A_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'EXST2A_gmb', 38, '1', 0.1 10.01 0.1 1.49 -1.49 0.1 0.3 0.01 1 1.19 0 0.1 4 /
Revision 1.3 / Dec. 2010
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2.1.21
IEEET1_gmb - 1968 IEEE type 1 excitation system model
2.1.21.1
IEEET1_gmb - Block Diagram
2.1.21.2
IEEET1_gmb - Parameters
Description TR (sec) KA TA (sec) VRMAX or zero VRMIN KE or zero TE (> 0) (sec) KF TF (> 0) (sec) Switch E1 SE (E1) E2 SE (E2)
2.1.21.3
Default 0,1 100 0,02 7,3 -7,3 1 0,1 0,03 1 0 2,9 0,5 3,9 0,86
Min 0 10,01 0 0,51 -9,99 -1 0,041 0,01 0,041
0 0 0 0
Max 0,49 499,99 0,99 9,99 -0,01 1 0,99 0,29 1,49
User value
0,99
IEEET1_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEET1_gmb', 38, '1', 0.1 100 0.02 7.3 -7.3 1 0.1 0.03 1 0 2.9 0.5 3.9 0.86 /
Revision 1.3 / Dec. 2010
Page 28 of 62
2.1.22
IEEET2_gmb - 1968 IEEE type 2 excitation system model
2.1.22.1
IEEET2_gmb - Block Diagram
2.1.22.2
IEEET2_gmb - Parameters
Description TR (sec) KA TA (sec) VRMAX or zero VRMIN KE TE (>0) (sec) KF TF1 (>0) (sec) TF2 (>0) (sec) E1 SE (E1) E2 SE (E2)
2.1.22.3
Default 0,1 50 0,1 8,2 -5,5 1 0,1 0,02 0,23 1,22 3,45 0,03 4,6 0,096
Min 0 10,01 0 0,51 -9,99 -1 0,041 0,01 0,041 0,041 0 0 0 0
Max 0,49 499,99 0,99 9,99 -0,01 1 0,99 0,29 1,49 1,49
User value
0,99
IEEET2_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEET2_gmb', 38, '1', 0.1 50 0.1 8.2 -5.5 1 0.1 0.02 0.23 1.22 3.45 0.03 4.6 0.096 /
Revision 1.3 / Dec. 2010
Page 29 of 62
2.1.23
IEEET4_gmb - 1968 IEEE type 4 excitation system model
2.1.23.1
IEEET4_gmb - Block Diagram
ECOMP
EC VRH1
VREF
+
1 s TRH
VRH
DV
VR
K 1+sT
SAT
V2
EFDX
Efd
Saturation
SIEMENS AG
E D SE PTI SW D at e:
0 1. 10 .2 01 0
Name:
PTI NC 1
Name of Controller: IEEET4_gmb Type of Controller: EXCITER
Project: IEEET4_gmb.mac
2.1.23.2
IEEET4_gmb - Parameters
Description KR TRH (> 0) (sec) KV VRMAX VRMIN TE (> 0) (sec) KE E1 SE (E1) E2 SE (E2)
2.1.23.3
Default 0,03 87 0,05 6 0 0,99 0,02 4 0,4 5 0,5
Min 0,011 2,01 0,021 2,01 0 0,041 -0,99 0 0
Max 0,049 99,99 0,099 9,99 1,99 0,99 0,09
User value
0,99
IEEET4_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEET4_gmb', 38, '1', 0.03 87 0.05 6 0 0.99 0.02 4 0.4 5 0.5 /
Revision 1.3 / Dec. 2010
Page 30 of 62
2.1.24
IEEET5_gmb - Modified 1968 IEEE type 4 excitation system model
2.1.24.1
IEEET5_gmb - Block Diagram
ECOMP
EC
K 1+sT VREF
+
VERR
1 sT
VRH
VR
EFDX1
VTE
EFDX
Efd
EFDX2
1 sT
V2
SAT
Saturation
SIEMENS AG
E D SE PTI SW D at e:
0 9. 09 .2 01 0
N am e:
P TI N C 1
Controller name: IEEET5_gmb Controller type: Excitation
Project: IEEET5_mac.mac
2.1.24.2
IEEET5_gmb - Parameters
Description TRH (> 0) (sec) KV VRMAX VRMIN TE (> 0) (sec) KE E1 SE (E1) E2 SE (E2)
2.1.24.3
Default 3 0,099 6 0 0,1 0,099 4 0,4 5 0,5
Min 2,01 0,021 2,01 0 0,041 -0,99 0 0
Max 99,99 0,099 9,99 1,99 0,99 0,099
User value
1
IEEET5_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEET5_gmb', 38, '1', 3 0.099 6 0 0.1 0.099 4 0.4 5 0.5 /
Revision 1.3 / Dec. 2010
Page 31 of 62
2.1.25
IEEEX1_gmb - 1979 IEEE type 1 excitation system model and 1981 IEEE type DC1 model
2.1.25.1
IEEEX1_gmb - Block Diagram
2.1.25.2
IEEEX1_gmb - Parameters
Description TR (sec) KA TA (sec) TB (sec) TC (sec) VRMAX or zero VRMIN KE or zero TE (>0) (sec) KF TF1 (>0) (sec) Switch E1 SE (E1) E2 SE (E2)
2.1.25.3
Default 0,025 98 0,2 0,5 1 9 -5 0,5 0,35 0,03 0,4 0 4 0,4 5 0,5
Min 0 10,01 0 0 0 0,51 -9,99 -1 0,041 0,01 0,041
0 0 0 0
Max 0,49 499,99 0,99
User value
9,99 -0,01 1 0,99 0,29 1,49
0,99
IEEEX1_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEEX1_gmb', 38, '1', 0.025 98 0.2 0.5 1 9 -5 0.5 0.35 0.03 0.4 0 4 0.4 5 0.5 /
Revision 1.3 / Dec. 2010
Page 32 of 62
2.1.26
IEEEX2_gmb - 1979 IEEE type 2 excitation system model
2.1.26.1
IEEEX2_gmb - Block Diagram
2.1.26.2
IEEEX2_gmb - Parameters
Description TR (sec) KA TA (sec) TB (sec) TC (sec) VRMAX or zero VRMIN KE or zero TE (> 0) (sec) KF TF1 (> 0) (sec) TF2 (> 0) (sec) E1 SE (E1) E2 SE (E2)
2.1.26.3
Default 0,02 10,01 0,1 1 10 9,99 -9,99 0,7 0,3 0,29 1,49 1,49 4 0,4 5 0,5
Min 0 10,01 0 0 0 0,51 -9,99 -1 0,041 0 0,041 0,041 0 0 0 0
Max 0,49 499,99 0,99
User value
9,99 -0,01 1 0,99 0,29 1,49 1,49 0,99
IEEEX2_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEEX2_gmb', 38, '1', 0.02 10.01 0.1 1 10 9.99 -9.99 0.7 0.3 0.29 1.49 1.49 4 0.4 5 0.5 /
Revision 1.3 / Dec. 2010
Page 33 of 62
2.1.27
IEEEX4_gmb - 1979 IEEE type 4 excitation system, 1981 IEEE type DC3 and 1992 IEEE type DC3A models
2.1.27.1
IEEEX4_gmb - Block Diagram
2.1.27.2
IEEEX4_gmb - Parameters
Description TR (sec) TRH (> 0) (sec) KV VRMAX VRMIN TE (> 0) (sec) KE E1 SE (E1) E2 SE (E2)
2.1.27.3
Default 0,01 10 0,099 2,1 0 0,14 0,099 4 0,4 5 0,5
Min 0,01 2,01 0,021 2,01 0 0,041 -0,99 0 0 0 0
Max 0,49 99,99 0,099 9,99 1,99 0,99 0,099
User value
1
IEEEX4_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEEX4_gmb', 38,'1', 0.01 10 0.099 2.1 0 0.14 0.099 4 0.4 5 0.5 /
Revision 1.3 / Dec. 2010
Page 34 of 62
2.1.28
IEET1A_gmb - Modified 1968 IEEE type 1 excitation system model
2.1.28.1
IEET1A_gmb - Block Diagram
2.1.28.2
IEET1A_gmb – Parameters
Description KA TA (sec) VRMAX VRMIN KE TE (> 0) (sec) KF TF (> 0) (sec) EFDMIN E1 SE (E1) E2 (EFDMAX) SE (EFDMAX)
2.1.28.3
Default 300 0,002 2 -2 0,02 0,5 0,1 1 0 3 0,3 4 0,4
Min 10,01 0 0,51 -9,99 -1 0,041 0,01 0,041 0 0 0 0 0
Max 499,99 0,99 9,99 -0,01 1 0,99 0,29 1,49
User value
0,99
IEET1A_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEET1A_gmb', 38, '1', 300 0.002 2 -2 0.02 0.5 0.1 1 0 3 0.3 4 0. 4 /
Revision 1.3 / Dec. 2010
Page 35 of 62
2.1.29
IEET5A_gmb - Modified 1968 IEEE type 4 excitation system model
2.1.29.1
IEET5A_gmb - Block Diagram
2.1.29.2
IEET5A_gmb - Parameters
Description KA TRH (sec) KV VRMAX VRMIN TE (> 0) (sec) KE E1 SE (E1) E2 SE (E2) EFDMAX EFDMIN
2.1.29.3
Default 2,2 0,1 2 4 0 0,05 0,099 4 0,4 5 0,5 6 0
Min 0,01
Max 24,99
2,01 0 0,041 -0,99 0 0 0 0
9,99 1,99 0,99 0,099
User value
0,99
IEET5A_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEET5A_gmb', 38, '1', 2.2 0.1 2 4 0 0.05 0.099 4 0.4 5 0.5 6 0 /
Revision 1.3 / Dec. 2010
Page 36 of 62
2.1.30
IEEX2A_gmb - 1979 IEEE type 2A excitation system model
2.1.30.1
IEEX2A_gmb - Block Diagram
2.1.30.2
IEEX2A_gmb - Parameters
Description TR (sec) KA TA (sec) TB (sec) TC (sec) VRMAX or zero VRMIN KE or zero TE (> 0) (sec) KF TF1 (> 0) (sec) E1 SE (E1) E2 SE (E2)
2.1.30.3
Default 0,1 50 0,099 0,1 0,2 9,99 -9,99 0,1 0,3 0,1 1 4 0,4 5 0,5
Min 0 10,01 0 0 0 0,51 -9,99 -1 0,041 0,01 0,041 0 0
Max 0,49 499,99 0,099
User value
9,99 -0,01 1 0,99 0,29 1,49 1
IEEX2A_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEX2A_gmb', 38, '1', 0.1 50 0.099 0.1 0.2 9.99 -9.99 0.1 0.3 0.1 1 4 0.4 5 0.5 /
Revision 1.3 / Dec. 2010
Page 37 of 62
2.1.31
IVOEX_gmb - IVO excitation system model
2.1.31.1
IVOEX_gmb - Block Diagram
2.1.31.2
IVOEX_gmb - Parameters
Description K1 A1 A2 T1 T2 MAX1 MIN1 K3 A3 A4 T3 T4 MAX3 MIN3 K5 A5 A6 T5 T6 MAX5 MIN5
2.1.31.3
Default 1 0,5 0,5 0,05 0,1 5 -5 3 0,5 0,5 0,1 0,1 5 -5 1 0,5 0,5 0,1 0,1 5 -2
Min
Max
User value
IVOEX_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IVOEX_gmb', 38, '1', 1 0.5 0.5 0.05 0.1 5 -5 3 0.5 0.5 0.1 0.1 5 -5 1 0.5 0.5 0.1 0.1 5 -2 /
Revision 1.3 / Dec. 2010
Page 38 of 62
2.1.32
OEX3T_gmb - Ontario Hydro IEEE Type ST1 excitation system with semicontinuous and acting terminal voltage limiter
2.1.32.1
OEX3T_gmb - Block Diagram
2.1.32.2
OEX3T_gmb - Parameters
Description TR T1 (sec) T2 (sec) T3 (sec) T4 (sec) KA T5 (sec) T6 (sec) (≤ T5) VRMAX VRMIN TE (> 0) (sec) KF TF (> 0) (sec) KC KD KE E1 SE (E1) E2 (E2 > E1) SE (E2)
2.1.32.3
Default 0,01 50 0,06 0,01 0,03 0,3 2,5 1,4 5 -5 0,03 1 2,5 0,02 0,5 0,11 2,47 0,035 3,5 0,5
Min
Max
User value
OEX3T_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'OEX3T_gmb', 38, '1', 0.01 50 0.06 0.01 0.03 0.3 2.5 1.4 5 -5 0.03 1 2.5 0.02 0.5 0.11 2.47 0.035 3.5 0.5 / Revision 1.3 / Dec. 2010
Page 39 of 62
2.1.33
REXSYS_gmb - General purpose rotating excitation system model
2.1.33.1
REXSYS_gmb - Block Diagram
Revision 1.3 / Dec. 2010
Page 40 of 62
2.1.33.2
REXSYS_gmb - Parameters
Description TR, voltage transducer time constant (sec) KVP, voltage regulator proportional gain KVI, voltage regulator integral gain VIMAX, voltage regulator input limit (pu) TA, voltage regulator time constant (sec) TB1, lag-time constant (sec) TC1, lead-time constant (sec) TB2, lag-time constant (sec) TC2, lead-time constant (sec) VRMAX, maximum controller output (pu) VRMIN, maximum controller output (pu) KF, rate feedback gain TF rate feedback > 0 time constant (sec) TF1, feedback lead-time constant (sec) TF2, feedback lag-time constant (sec) FBF, (0, 1, 2) rate feedback signal flag KIP, field current regulator proportional gain KII, field current regualtor integral gain TP, field current bridge time constant (sec) VFMAX, maximum exciter field current (pu) VFMIN, minimum exciter field current (pu) KH, field voltage controller feedback gain KE, exciter field proportional constant TE, exciter field time constant (sec > 0) KC, rectifier regulation factor (pu) KD, exciter regulation factor (pu) E1, exciter flux at knee of curve (pu) SE (E1), saturation factor at knee E2, maximum exciter (pu) SE (E2), saturation factor at maximum flux FLIMF, power supply limit factor
2.1.33.3
Default 0,02 1 3 20 0,2 0,03 0,1 1 1 19,99 -19,99 0,29 1,49 2,4 2,8 0 0,49
Min 0 0 0 0,01 0 0 0 0 0 0,51 -19,99 0,01 0,021 0 0 0 0
Max 0,49 199,99 199,99 20 10 19,99 19,99 19,99 19,99 19,99 -0,01 0,29 1,49
0,49 0,9 99,99
0 0 0,51
0,49 99,99
-99,99
-99,99
-0,01
1,3 1 0,23 0,5 0,03 4 0,4 5 0,5 1
-10 -10 0,021
10 10 9,99 1 2
0 0 0 0 0
User value
2 0,49
1
REXSYS_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'REXSYS_gmb', 38, '1', 0.02 1 3 20 0.2 0.03 0.1 1 1 19.99 -19.99 0.29 1.49 2.4 2.8 0 0.49 0.49 0.9 99.99 -99.99 1.3 1 0.23 0.5 0.03 4 0.4 5 0.5 1 /
Revision 1.3 / Dec. 2010
Page 41 of 62
2.1.34
SCRX_gmb - Bus or solid fed SCR bridge excitation system model
2.1.34.1
SCRX_gmb - Block Diagram
2.1.34.2
SCRX_gmb - Parameters
Description TA/TB TB (> 0) (sec) K TE (sec) EMIN (pu on EFD base) EMAX (pu on EFD base) CSWITCH rc/rfd
2.1.34.3
Default 0,29 5,01 50,01 0,3 -4,99 6 1 2
Min 0,05 5,01 50,01 0 -4,99 2,01 0 0
Max 0,29 24,99 399,99 0,99 0 9,99 1 10
User value
SCRX_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'SCRX_gmb', 38, '1', 0.29 5.01 5 0.01 0.3 -4.99 6 1 2 /
Revision 1.3 / Dec. 2010
Page 42 of 62
2.1.35
SEXS_gmb - Simplified excitation system model
2.1.35.1
SEXS_gmb - Block Diagram
2.1.35.2
SEXS_gmb - Parameters
Description TA/TB TB (> 0) (sec) K TE (sec) EMIN (pu on EFD base) EMAX (pu on EFD base)
2.1.35.3
Default 0,99 5,01 50 0,05 0 4
Min 0,051 5,01 20,01 0 0 3
Max 0,99 19,99 100 0,49 0 6
User value
SEXS_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'SEXS_gmb', 38, '1', 0.99 5.01 50 0.05 0 4 /
Revision 1.3 / Dec. 2010
Page 43 of 62
2.1.36
URST5T_gmb - IEEE proposed type ST5B excitation system
2.1.36.1
URST5T_gmb - Block Diagram
2.1.36.2
URST5T_gmb - Parameters
Description Tr (sec) TC1 (sec) TB1 (sec) TC2 (sec) TB2 (sec) KR VRMAX VRMIN T1 KC
2.1.36.3
Default 0,025 0,1 0,2 1 1 1 10 -10 0,58 0,3
Min
Max
User value
URST5T_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'URST5T_gmb', 38, '1', 0.025 0.1 0.2 1 1 1 10 -10 0.58 0.3 /
Revision 1.3 / Dec. 2010
Page 44 of 62
2.2
Governors (GOV)
2.2.1
CRCMGV_gmb - Cross compound turbine-governor model
2.2.1.1
CRCMGV_gmb - Block Diagram
2.2.1.2
CRCMGV_gmb - Parameters
Description JBUS-Dummy M-Dummy PMAX (HP) R (HP) T1(HP>0) T3(HP>0) T4(HP>0) T5(HP>0) F (HP) DH (HP) PMAX (LP) RL (LP) T1L (LP) (>0) T3L (LP) (>0) T4L (LP) (>0) T5L (LP) (>0) F (LP) DH (LP)
2.2.1.3
Default 38 1 1 0,02 1,2 0,8 0,6 0,3 6,1 0 1 0,02 1,2 0,8 0,6 0,3 6,1 0
Min
Max
0,51 0,01 0,041 0,041 0,041 0,041
1,19 0,099
0
0
User value
CRCMGV_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'CRCMGV_gmb', 38, '1', 38 1 1 0.02 1.2 0.8 0.6 0.3 6.1 0 1 0.02 1.2 0.8 0.6 0.3 6.1 0 /
Revision 1.3 / Dec. 2010
Page 45 of 62
2.2.2
DEGOV_gmb - Woodward diesel governor model
2.2.2.1
DEGOV_gmb - Block Diagram
2.2.2.2
DEGOV_gmb - Parameters
Description T1 (sec) T2 (sec) T3 (sec) K T4 (sec) T5 (sec) T6 (sec) TD (0
2.2.2.3
Default 15 0,2 5 20 5 5 0,25 0,1 1,2 -0,05
Min 0 0 0 15 0 0 0 0 0 -0,05
Max 24,99 0,49 9,99 24,99 24,99 9,99 0,49 0,124 1,49 0,49
User value
DEGOV_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'DEGOV_gmb', 38, '1', 15 0.2 5 20 5 5 0.25 0.1 1.2 -0.05 /
Revision 1.3 / Dec. 2010
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2.2.3
DEGOV1_gmb - Woodward diesel governor model
2.2.3.1
DEGOV1_gmb - Block Diagram
2.2.3.2
DEGOV1_gmb - Parameters
Description T1 (sec) T2 (sec) T3 (sec) K T4 (sec) T5 (sec) T6 (sec) TD (0
2.2.3.3
Default 15 0,2 5 20 5 5 0,25 0,001 1 -0,05 0,05 0,5
Min 0 0 0 15 0 0 0 0 0 -0,05 0 0
Max 24,99 0,49 9,99 24,99 24,99 9,99 0,49 0,124 1,49 0,49 0,09 0,99
User value
DEGOV1_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'DEGOV1_gmb', 38, '1', 0 15 0.2 5 20 5 5 0.25 0.001 1 -0.05 0.05 0.5 /
Revision 1.3 / Dec. 2010
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2.2.4
GAST_gmb - Gas turbine-governor model
2.2.4.1
GAST_gmb - Block Diagram
2.2.4.2
GAST_gmb - Parameters
Description R (speed droop) T1 (>0) (sec) T2 (>0) (sec) T3 (>0) (sec) Ambient temperature load limit, AT KT VMAX VMIN Dturb
2.2.4.3
Default 0,047 0,4 0,1 3 0,85 2 0,85 0 0
Min 0,01 0,041 0,041 0,041 0,01 0,01 0,51 0 0
Max 0,099 0,49 0,49 4,99 1 4,99 1,19 0,99 0,49
User value
GAST_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'GAST_gmb', 38, '1', 0.047 0.4 0.1 3 0.85 0 0 /
Revision 1.3 / Dec. 2010
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2.2.5
HYGOV2_gmb - Hydro turbine-governor model
2.2.5.1
HYGOV2_gmb - Block Diagram
2.2.5.2
HYGOV2_gmb - Parameters
Description Kp Ki KA T1 T2 T3 (>0) T4 (>0) T5 T6 (>0) TR (>0) r, temporary droop R, permanent droop +VGMAX Maximum gate position, GMAX Minimum gate position, GMIN PMAX
2.2.5.3
Default 1 1 1 1 2 0,5 0,5 0,3 0,5 0,5 0,3 0,3 1 1 0 1
Min
Max
User value
HYGOV2_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'HYGOV2_gmb', 38, '1', 1 1 1 1 2 0.5 0.5 0.3 0.5 0.5 0.3 0.3 1 1 0 1 / Revision 1.3 / Dec. 2010
Page 49 of 62
2.2.6
IEEEG1_gmb - 1981 IEEE type 1 turbine-governor model
2.2.6.1
IEEEG1_gmb - Block Diagram
2.2.6.2
IEEEG1_gmb - Parameters
Description K T1 (sec) T2 (sec) T3 (>0) (sec) Uo (pu/sec) Uc (<0) (pu/sec) PMAX (pu on machine MVA rating) PMIN (pu on machine MVA rating) T4 (sec) K1 K2 T5 (sec) K3 K4 T6 (sec) K5 K6 T7 (sec) K7 K8
2.2.6.3
Default 30 0,5 1 1 0,1 -0,2 0,85 0 0,4 0,4 0 7 0,3 0,1 0,6 0,2 0,2 0,3 0,1 0,1
Min 5 0 0 0,041 0,01 -0,3 0,5 0 0,01 -2,0 0 0 0 0 0 0 0 0 0 0
Max 30 4,99 9,99 1 0,3 -0,01 2 0,49 1 1 0 9,99 0,49 0,49 9,99 0,34 0,54 9,99 0,29 0,29
User value
IEEEG1_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEEG1_gmb', 38, '1', 0 0 30 0.5 1 1 0.1 -0.2 0.85 0 0.4 0.4 0 7 0.3 0.1 0.6 0.2 0.2 0.3 0.1 0.1 /
Revision 1.3 / Dec. 2010
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2.2.7
IEEEG2_gmb - 1981 IEEE type 2 turbine-governor model
2.2.7.1
IEEEG2_gmb - Block Diagram K 1 + s T1
SPDDEV
GREF
+
DPsoll
DSp1
1 + s T 2 1 + s T3
DSp2
Begr
1 1 + s T45
DP1
s 2*T45 1 + s T45
DP2
PMech
p.mech
SIEMENS AG
E D SE PTI SW Date:
17.09.2010
Name:
PTI NC 1
Name of Controller: IEEEG2_gmb Type of Controller: Governor
Project: IEEEG2_gmb.mac
2.2.7.2
IEEEG2_gmb - Parameters
Description K T1 (sec) T2 (sec) T3 (>0) (sec) PMAX (pu on machine MVA rating) PMIN (pu on machine MVA rating) T4 (>0) (sec), water starting time
2.2.7.3
Default 20 50 9,99 1 1,2 0 1
Min 5 0 0 0,041 0,5 0 0,04
Max 30 99,99 9,99 1 1,5 0,5 5
User value
IEEEG2_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEEG2_gmb', 38, '1', 20 50 9.99 1 1.2 0 1 /
Revision 1.3 / Dec. 2010
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2.2.8
IEEEG3_gmb - 1981 IEEE type 3 turbine-governor model
2.2.8.1
IEEEG3_gmb - Block Diagram
2.2.8.2
IEEEG3_gmb - Parameters
Description TG, (>0) (sec), gate servomotor time constant TP, (>0) (sec), pilot value time constant UO (pu per sec), opening gate rate limit Uc (pu per sec), closing gate rate limit (<0.) PMAX maximum gate position (pu on machine MVA rating) PMIN minimum gate position (pu on machine MVA rating) σ, permanent speed droop coefficient δ, transient speed droop coefficient TR, (>0) (sec) TW (>0) (sec), water starting time a11 (>0) a13 a21 a23 (>0)
2.2.8.3
Default 0,2
Min 0,04
Max 1
0,099 0,1 -0,1 1
0,04 0 -0,29 0,5
0,099 0,29 0 1
0
0
0,5
0,05 1 6 1 1 1,49 1 1
0,01 0,01 1 0,041 0,01 0,01 0,01 0,01
0,1 1,2 49,99 9,99 1,49 1,49 1,50 1,49
User value
IEEEG3_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEEEG3_gmb', 38, '1', 0.2 0.099 0.1 -0.1 1 0 0.05 1 6 1 1 1.49 1 1 /
Revision 1.3 / Dec. 2010
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2.2.9
IEESGO_gmb - 1973 IEEE standard turbine-governor model
2.2.9.1
IEESGO_gmb - Block Diagram
2.2.9.2
IEESGO_gmb - Parameters
Description T1, controller lag (sec) T2, controller lead compensation (sec) T3, governor lag (>0) (sec) T4, delay due to steam inlet volumes associated with steam chest and inlet piping (sec) T5, reheater delay including hot and cold leads (sec) T6, delay due to IP-LP turbine, crossover pipes, and LP end hoods (sec) K1, 1/per unit regulation K2, fraction K3, fraction PMAX, upper power limit PMIN, lower power limit
2.2.9.3
Default 0,5 0,2 1 0,5
Min 0 0 0,041 0
Max 99,99 9,99 1 1
0,5
0
50
1
0
1
25 0,8 1 1 0
5 0 -1 0,5 0
30 3 1 1,5 0,5
User value
IEESGO_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IEESGO_gmb', 38, '1', 0.5 0.2 1 0.5 0.5 1 25 0.8 1 1 0 /
Revision 1.3 / Dec. 2010
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2.2.10
IVOGO_gmb - IVO turbine-governor model
2.2.10.1
IVOGO_gmb - Block Diagram
2.2.10.2
IVOGO_gmb - Parameters
Description K1 A1 A2 T1 T2 MAX1 MIN1 K3 A3 A4 T3 T4 MAX3 MIN3 K5 A5 A6 T5 T6 MAX5 MIN5
2.2.10.3
Default 1 1 1 0,5 0,5 1 -1 1 0,5 0,5 0,3 0,3 1 -1 1 0,5 0,5 0,3 0,3 1 -1
Min
Max
User value
IVOGO_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'IVOGO_gmb', 38, '1', 1 1 1 0.5 0.5 1 -1 1 0.5 0.5 0.3 0.3 1 -1 1 0.5 0.5 0.3 0.3 1 -1 /
Revision 1.3 / Dec. 2010
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2.2.11
PIDGOV_gmb - Hydro turbine and governor model
2.2.11.1
PIDGOV_gmb - Block Diagram
GP
PELEC
Pele
FB
K 1+sT
Rperm 1 + s Treg
F E R G
SPDDEV
SPDDEV
+
1 + s Kp Ti s Ti
-
1 1 + s Ta
1 1 + s Ta
s Kd 1 + s Ta
1 1 + s Tzb2
GP
1 Tb
1 s
GP
p.mech
s Tz 1 + s Tzb2
Dturb
SIEMENS AG
E D SE PTI SW Da te :
2 3. 11 .2 01 0
N am e:
P TI NC 1
Controller name: PIDGOV_gmb Controller type: Governor
Project: PIDGOV_gmb.mac
Revision 1.3 / Dec. 2010
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2.2.11.2
PIDGOV_gmb - Parameters
Description Rperm, permanent drop, pu Treg (sec), speed detector time constant Kp, proportional gain, pu/sec Ki, reset gain, pu/sec Kd, derivative gain, pu Ta (sec) > 0, controller time constant Tb (sec) > 0, gate servo time constant Dturb, turbine damping factor, pu G0, gate opening at speed no load, pu G1, intermediate gate opening, pu P1, power at gate opening G1, pu G2, intermediate gate opening, pu P2, power at gate opening G2, pu P3, power at full opened gate, pu Gmax, maximum gate opening, pu Gmin, minimum gate opening, pu Atw > 0, factor multiplying Tw, pu Tw (sec) > 0, water inertia time constant Velmax, maximum gate opening velocity, pu/sec Velmin < 0, minimum gate opening velocity, pu/sec
2.2.11.3
Default 0,05 2 5 2,5 0,25 0,05 0,09 0 0,02 0,41 0,55 0,62 0,78 1 1 0,1 1 0,05 0,2
Min
Max
0,021 0,021
0,99 0,99
0,021 0,01
0,99 0,29
-0,2
-0,3
-0,01
User value
PIDGOV_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'PIDGOV_gmb', 38, '1', 0 0.05 2 5 2.5 0.25 0.5 0.9 0.01 0.02 0.41 0.55 0.62 0.78 1 1 0.1 1 0.05 0.2 -0.2/
Revision 1.3 / Dec. 2010
Page 56 of 62
2.2.12
TGOV1_gmb - Steam turbine-governor model
2.2.12.1
TGOV1_gmb - Block Diagram
2.2.12.2
TGOV1_gmb - Parameters
Description R T1 (>0) (sec) VMAX VMIN T2 (sec) T3 (>0) (sec) Dt
2.2.12.3
Default 0,06 0,49 1 0 1 1 0
Min 0,01 0,041 0,51 0 0 0,041 0
Max 0,099 0,49 1,19 0,99
User value
9,99 0,49
TGOV1_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'TGOV1_gmb', 38, '1', 0.06 0.49 1 0 1 1 0 /
Revision 1.3 / Dec. 2010
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2.2.13
TGOV2_gmb - Steam turbine-governor model with fast valving
2.2.13.1
TGOV2_gmb - Block Diagram
2.2.13.2
TGOV2_gmb - Parameters
Description R (pu) T1 (>0) (sec) VMAX (pu) VMIN (pu) K (pu) T3 (>0) (sec) Dt (pu) Tt (>0) (sec)
2.2.13.3
Default 0,099 0,3 1 0 0,3 2 0 0,2
Min 0 0,041 0,51 0 0,099 1,01 0 0,041
Max 0,099 0,49 1,19 0,099 0,49 9,99 0,49 0,49
User value
TGOV2_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'TGOV2_gmb', 38, '1', 0.099 0.3 1 0 0.3 2 0 0.2 /
Revision 1.3 / Dec. 2010
Page 58 of 62
2.2.14
TGOV3_gmb - Modified IEEE type 1 turbine-governor model with fast valving
2.2.14.1
TGOV3_gmb - Block Diagram
2 K
2.2.14.2
TGOV3_gmb - Parameters
Description K T1 (sec) T2 (sec) T3 (>0) (sec) Uo Uc (<0) PMAX PMIN T4 (sec) K1 T5 (>0) (sec) K2 T6 (sec) K3 TA (sec) TB (sec) TC (sec) PRMAX (pu)
2.2.14.3
3 K
Default 20 0,9 0,2 0,5 0,1 -0,1 1 0 0,2 0,5 0,2 0,3 0,2 0,2 0,1 0,2 1,2 1
Min 5 0 0 0,041 0,01 -0,3 0,5 0 0,01 -2 0,041 0 0 0 0,041
Max 30 4,99 9,99 1 0,3 -0,01 1 0,49 1 1 9,99 0,49 9,99 0,34 0,24 49,99 49,99
User value
TGOV3_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'TGOV3_gmb', 38, '1', 20 0.9 0.2 0.5 0.1 -0.1 1 0 0.2 0.5 0.2 0.3 0.2 0.2 0.1 0.2 1.2 1 /
Revision 1.3 / Dec. 2010
Page 59 of 62
2.2.15
WPIDHY_gmb - Woodward P.I.D. hydro governor model
2.2.15.1
WPIDHY_gmb - Block Diagram
2.2.15.2
WPIDHY_gmb - Parameters
Description TREG (sec) REG KP KI KD TA (>0) (sec) TB (>0) (sec) VELMX VELMN (<0) GATMX GATMN TW (>0) (sec) PMAX PMIN D G0 G1 P1 G2 P2 P3
2.2.15.3
Default 2 0,05 5 3 3 1 1 1 -1 1 0,05 2 1 0,01 0,3 0,2 0,5 0,2 0,75 0,5 0,8
Min 0,05 0,01 0 0 0 0,41 0,041 0 -1 0,3 0 0,5 0,5 0 0,01
Max 4,99 0,09 9,99 5 5 2 2 1 0 1 0,5 3 1,1 0,5 0,49
User value
WPIDHY_gmb - Example dyr-record for PSS®E
For bus 38, generator-id ‘1’ the dyr-record may be: 'USRMBL', 'WPIDHY_gmb', 38, '1', 2 0.05 5 3 3 1 1 1 -1 1 0.05 2 1 0.01 0.3 0.2 0.5 0.2 0.75 0.5 0.8 /
Revision 1.3 / Dec. 2010
Page 60 of 62
2.2.16
WSIEG1_gmb - WECC modified 1981 IEEE type 1 turbine-governor model
2.2.16.1
WSIEG1_gmb - Block Diagram
Revision 1.3 / Dec. 2010
Page 61 of 62
