PSOC Thermal Stability, Schemes and Mind Maps of Control Systems

PSOC Thermal stability analysis.

Typology: Schemes and Mind Maps

2022/2023

Uploaded on 11/20/2023

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Stability Models for Thermal PP (Bus A)
Generator Model: GENROU
Con description
Con Values
T'do (> 0)
6.5600
T''do (> 0)
0.0570
T'qo (> 0)
1.2200
T''qo (> 0)
0.1340
Inertia H
3.0000
Speed Damping D
0.0000
Xd
2.1180
Xq
2.0160
X'd
0.2750
X'q
0.3240
X''d = X''q
0.1600
Xl
0.1400
S(1.0)
0.1100
S(1.2)
0.2700
Exciter Model: EXST1
Con description
Con Values
TR
0.0100
VIMAX
99.0000
pf3
pf4
pf5

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Stability Models for Thermal PP (Bus A)

Generator Model: GENROU

Governor Model: GAST

Governor Model: HYGOV

  • T'do (> 0) 6. Con description Con Values
  • T''do (> 0) 0.
  • T'qo (> 0) 1.
  • T''qo (> 0) 0.
  • Inertia H 3.0
  • Speed Damping D 0.
  • Xd 2.
  • Xq 2.
  • X'd 0.
  • X'q 0.
  • X''d = X''q 0.
  • Xl 0.
  • S(1.0) 0.
  • S(1.2) 0.
  • Exciter Model: EXST
    • TR 0. Con description Con Values
    • VIMAX 99.
  • VIMIN - 99.
  • TC 1.
  • TB 4.
  • KA 100.
  • TA 0.
  • VRMAX 5.
  • VRMIN - 5.
  • KC 0.
  • KF 0.
  • TF (> 0) 1.
  • R (Speed Droop) 0. Con description Con Values
  • T1 (> 0) 0.
  • T2 (> 0) 0.
  • T3 (>0) 3.
  • Ambient Temperature Load Limit 1.
  • KT 2.
  • VMAX 0.
  • VMIN - 0.
  • Dturb 0.
  • T'do (> 0) 8. Con description Con Values
  • T''do (> 0) 0.
  • T''qo (> 0) 0.
  • Inertia H 3.
  • Speed Damping D 0.
  • Xd 0.
  • Xq 0.
  • X'd 0.
  • X''d = X''q 0.
  • X1 0.
  • S(1.0) 0.
  • S(1.2) 0.
  • Exciter Model: EXST
    • TR 0. Con description Con Values
    • VIMAX 99.
    • VIMIN - 99.
    • TC 1.
    • TB 4.
    • KA 500.
    • TA 0.
    • VRMAX 5.
    • VRMIN - 5.
    • KC 0.
    • KF 0.
    • TF (> 0) 1.
      • R, Permanent Droop 0. Con description Con Values
      • r, Temporary Droop 0.
      • Tr (> 0) Governor Time Constant 6.
  • Tf (> 0) Filter Time Constant 0.
  • Tg (> 0) Servo Time Constant 0.
  • VELM, Gate Velocity Limit 0.
  • GMAX, Maximum Gate Limit 0.
  • GMIN, Minimum Gate Limit 0.
  • TW (> 0) Water Time Constant 2.
  • At, Turbine Gain 1.
  • Dturb, Turbine Damping 0.
  • qNL, No Load Flow 0.