: Public Class
Created: 07/05/2009 13:06:43
Modified: 23/04/2012 09:27:20
Project:
Advanced:
General Purpose Rotating Excitation System Model.  This model can be used to represent a wide range of excitation systems whose DC power source is an AC or DC generator. It encompasses IEEE type AC1, AC2, DC1, and DC2 excitation system models. <br/>
Attribute
Public PU
  e1
Details:
Notes: Field voltage value 1 (E1).  Typical Value = 3.<br/>
Public PU
  e2
Details:
Notes: Field voltage value 2 (E2).  Typical Value = 4.<br/>
Public ExcREXSFeedbackSignalKind
  fbf
Details:
Notes: Rate feedback signal flag (Fbf). Typical Value = fieldCurrent.<br/>
Public PU
  flimf
Details:
Notes: Limit type flag (Flimf).  Typical Value = 0.<br/>
Public PU
  kc
Details:
Notes: Rectifier regulation factor (Kc).  Typical Value = 0.05.<br/>
Public PU
  kd
Details:
Notes: Exciter regulation factor (Kd).  Typical Value = 2.<br/>
Public PU
  ke
Details:
Notes: Exciter field proportional constant (Ke).  Typical Value = 1.<br/>
Public PU
  kefd
Details:
Notes: Field voltage feedback gain (Kefd).  Typical Value = 0.<br/>
Public Seconds
  kf
Details:
Notes: Rate feedback gain (Kf).  Typical Value = 0.05.<br/>
Public PU
  kh
Details:
Notes: Field voltage controller feedback gain (Kh).  Typical Value = 0.<br/>
Public PU
  kii
Details:
Notes: Field Current Regulator Integral Gain (Kii).  Typical Value = 0.<br/>
Public PU
  kip
Details:
Notes: Field Current Regulator Proportional Gain (Kip).  Typical Value = 1.<br/>
Public PU
  ks
Details:
Notes: Coefficient to allow different usage of the model-speed coefficient (Ks).  Typical Value = 0.<br/>
Public PU
  kvi
Details:
Notes: Voltage Regulator Integral Gain (Kvi).  Typical Value = 0.<br/>
Public PU
  kvp
Details:
Notes: Voltage Regulator Proportional Gain (Kvp).  Typical Value = 2800.<br/>
Public PU
  kvphz
Details:
Notes: V/Hz limiter gain (Kvphz).  Typical Value = 0.<br/>
Public PU
  nvphz
Details:
Notes: Pickup speed of V/Hz limiter (Nvphz).  Typical Value = 0.<br/>
Public PU
  se1
Details:
Notes: Saturation factor at E1 (Se1).  Typical Value = 0.0001.<br/>
Public PU
  se2
Details:
Notes: Saturation factor at E2 (Se2).  Typical Value = 0.001.<br/>
Public Seconds
  ta
Details:
Notes: Voltage Regulator time constant (Ta).  Typical Value = 0.01.<br/>
Public Seconds
  tb1
Details:
Notes: Lag time constant (Tb1).  Typical Value = 0.<br/>
Public Seconds
  tb2
Details:
Notes: Lag time constant (Tb2).  Typical Value = 0.<br/>
Public Seconds
  tc1
Details:
Notes: Lead time constant (Tc1).  Typical Value = 0.<br/>
Public Seconds
  tc2
Details:
Notes: Lead time constant (Tc2).  Typical Value = 0.<br/>
Public Seconds
  te
Details:
Notes: Exciter field time constant (Te).  Typical Value = 1.2.<br/>
Public Seconds
  tf
Details:
Notes: Rate feedback time constant (Tf).  Typical Value = 1.<br/>
Public Seconds
  tf1
Details:
Notes: Feedback lead time constant (Tf1).  Typical Value = 0.<br/>
Public Seconds
  tf2
Details:
Notes: Feedback lag time constant (Tf2).  Typical Value = 0.<br/>
Public Seconds
  tp
Details:
Notes: Field current Bridge time constant (Tp).  Typical Value = 0.<br/>
Public PU
  vcmax
Details:
Notes: Maximum compounding voltage (Vcmax).  Typical Value = 0.<br/>
Public PU
  vfmax
Details:
Notes: Maximum Exciter Field Current (Vfmax).  Typical Value = 47.<br/>
Public PU
  vfmin
Details:
Notes: Minimum Exciter Field Current (Vfmin).  Typical Value = -20.<br/>
Public PU
  vimax
Details:
Notes: Voltage Regulator Input Limit (Vimax).  Typical Value = 0.1.<br/>
Public PU
  vrmax
Details:
Notes: Maximum controller output (Vrmax).  Typical Value = 47.<br/>
Public PU
  vrmin
Details:
Notes: Minimum controller output (Vrmin).  Typical Value = -20.<br/>
Public PU
  xc
Details:
Notes: Exciter compounding reactance (Xc).  Typical Value = 0.<br/>
Object Type Connection Direction Notes
ExcitationSystemDynamics Class Generalization To