: Public Class
Created: 07-May-09 12:52:11
Modified: 02-Mar-11 10:52:00
Project:
Advanced:
IEEE (2005) ST4B Model<br /></p><p><br /></p><p>This model is a variation of the Type ST3A model, with a proportional plus integral (PI) regulator block<br /></p><p>replacing the lag-lead regulator characteristic that was in the ST3A model. Both potential- and compoundsource<br /></p><p>rectifier excitation systems are modeled. The PI regulator blocks have nonwindup limits that are represented. The voltage regulator of this model is typically implemented digitally.<br /></p>
Attribute
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  angp

Details:
GUIDBasedOn={FBAF711C-2CAE-42a4-8B98-6BA1100660A7}
Notes: Phase angle of potential source
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  kc

Details:
GUIDBasedOn={6EDEFCBA-079E-4290-854D-CDF8DB25FE4C}
Notes: Exciter regulation factor (>= 0.)
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  kg

Details:
GUIDBasedOn={14A18922-E6B8-409f-861B-F794FB4A98AD}
Notes: Inner loop feedback gain (>= 0.)
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  ki

Details:
GUIDBasedOn={D2007931-E17A-4553-A7FD-CAC7E75A0014}
Notes: Current source gain (>= 0.)
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  kim

Details:
GUIDBasedOn={4A7B2A9D-6E61-45f0-84C3-99F7E6328846}
Notes: Integral gain of inner loop regulator
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  kir

Details:
GUIDBasedOn={E0AD83C8-3786-431a-A705-2E9653CA6CB9}
Notes: AVR Integral gain
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  kp

Details:
GUIDBasedOn={7B352853-2448-486c-9924-E37B59371786}
Notes: Potential source gain (> 0.)
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  kpm

Details:
GUIDBasedOn={13AAB946-F17E-4fbf-9A11-CD1811931F25}
Notes: Prop. gain of inner loop regulator
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  kpr

Details:
GUIDBasedOn={E7B37141-1F44-4f27-803C-812CFD52473E}
Notes: AVR proportional gain
Public <a href="../../EA1/EA64.htm">Seconds</a>
  ta

Details:
GUIDBasedOn={4EBCE4F0-94D6-4f08-B2E7-F6369BFDC94F}
Notes: AVR time constant (>= 0.)
Public <a href="../../EA1/EA64.htm">Seconds</a>
  tr

Details:
GUIDBasedOn={A36477E8-0B5F-4a59-A823-AAEF3780A23A}
Notes: Voltage transducer time constant (>= 0.)
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  vbmax

Details:
GUIDBasedOn={4E09E42B-F894-4f5d-BE2D-D6E1AB8D3AE7}
Notes: Maximum excitation voltage (> 0.)
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  vgmax

Details:
GUIDBasedOn={FB46EB5E-7D7F-451d-B5B6-22A5554D225E}
Notes: Maximum inner loop feedback gain (>= 0.)
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  vmmax

Details:
GUIDBasedOn={E94E8EBE-D461-4f60-9238-A0EAA59D8AE3}
Notes: Maximum inner loop regulator output
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  vmmin

Details:
GUIDBasedOn={D145E2BF-D2C8-4ca7-BF37-F3D3F297A10E}
Notes: Minimum inner loop regulator output
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  vrmax

Details:
GUIDBasedOn={E7742CB5-2678-4bc7-82C4-B2E91C3E65A5}
Notes: Maximum AVR output (> 0.)
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  vrmin

Details:
GUIDBasedOn={00E16C89-365B-4353-B025-D9C196BFC28D}
Notes: Minimum AVR output (< 0.)
Public <a href="../../EA1/EA65.htm">Simple_Float</a>
  xl

Details:
GUIDBasedOn={47EC3F39-C11A-44c7-A2BF-FC7A201AC00D}
Notes: P-bar leakage reactance (>= 0.)
Tag Value
GUIDBasedOn {85D10103-7F88-4241-8E66-58D467B5AAB4}
Details:
 
Object Type Connection Notes
ExcitationSystem Class Generalization