: Public Class
Created: 13/04/2012 18:46:24
Modified: 23/11/2014 19:49:14
Project:
Advanced:
Q control model.<br/><br/>Reference: IEC Standard 61400-27-1 Section 5.6.5.7.<br/>
Attribute
Public PU
  iqh1
Details:
Notes: Maximum reactive current injection during dip (i<sub>qh1</sub>). It is type dependent parameter.<br/>
Public PU
  iqmax
Details:
Notes: Maximum reactive current injection (i<sub>qmax</sub>). It is type dependent parameter.<br/>
Public PU
  iqmin
Details:
Notes: Minimum reactive current injection (i<sub>qmin</sub>). It is type dependent parameter.<br/>
Public PU
  iqpost
Details:
Notes: Post fault reactive current injection (<i>i</i><sub>qpost</sub>). It is project dependent parameter.<br/>
Public PU
  kiq
Details:
Notes: Reactive power PI controller integration gain (<i>K</i><sub>I,q</sub>). It is type dependent parameter.<br/>
Public PU
  kiu
Details:
Notes: Voltage PI controller integration gain (<i>K</i><sub>I,u</sub>). It is type dependent parameter.<br/>
Public PU
  kpq
Details:
Notes: Reactive power PI controller proportional gain (<i>K</i><sub>P,q</sub>). It is type dependent parameter.<br/>
Public PU
  kpu
Details:
Notes: Voltage PI controller proportional gain (<i>K</i><sub>P,u</sub>). It is type dependent parameter.<br/>
Public PU
  kqv
Details:
Notes: Voltage scaling factor for UVRT current (<i>K</i><sub>qv</sub>). It is project dependent parameter.<br/>
Public PU
  rdroop
Details:
Notes: Resistive component of voltage drop impedance (<i>r</i><sub>droop</sub>). It is project dependent parameter.<br/>
Public Seconds
  tpfiltq
Details:
Notes: Power measurement filter time constant (<i>T</i><sub>pfiltq</sub>). It is type dependent parameter.<br/>
Public Seconds
  tpost
Details:
Notes: Length of time period where post fault reactive power is injected (<i>T</i><sub>post</sub>). It is project dependent parameter.<br/>
Public Seconds
  tqord
Details:
Notes: Time constant in reactive power order lag (<i>T</i><sub>qord</sub>). It is type dependent parameter.<br/>
Public Seconds
  tufiltq
Details:
Notes: Voltage measurement filter time constant (<i>T</i><sub>ufiltq</sub>). It is type dependent parameter.<br/>
Public PU
  udb1
Details:
Notes: Voltage dead band lower limit (<i>u</i><sub>db1</sub>). It is type dependent parameter.<br/>
Public PU
  udb2
Details:
Notes: Voltage dead band upper limit (<i>u</i><sub>db2</sub>). It is type dependent parameter.<br/>
Public PU
  umax
Details:
Notes: Maximum voltage in voltage PI controller integral term (u<sub>max</sub>). It is type dependent parameter.<br/>
Public PU
  umin
Details:
Notes: Minimum voltage in voltage PI controller integral term (u<sub>min</sub>). It is type dependent parameter.<br/>
Public PU
  uqdip
Details:
Notes: Voltage threshold for UVRT detection in q control (<i>u</i><sub>qdip</sub>). It is type dependent parameter.<br/>
Public PU
  uref0
Details:
Notes: User defined bias in voltage reference (<i>u</i><sub>ref0</sub>), used when <i>M</i><sub>qG</sub> is set to voltage control. It is case dependent parameter.<br/>
Public WindQcontrolModeKind
  windQcontrolModesType
Details:
Notes: Types of general wind turbine Q control modes (<i>M</i><sub>qG</sub>).  It is project dependent parameter.<br/>
Public WindUVRTQcontrolModeKind
  windUVRTQcontrolModesType
Details:
Notes: Types of UVRT Q control modes (<i>M</i><sub>qUVRT</sub>). It is project dependent parameter.<br/>
Public PU
  xdroop
Details:
Notes: Inductive component of voltage drop impedance (<i>x</i><sub>droop</sub>). It is project dependent parameter.<br/>
Element Source Role Target Role
WindTurbineType3or4IEC
Class  
Name: WIndContQIEC
Wind control Q model associated with this wind turbine type 3 or 4 model.
Name: WindTurbineType3or4IEC
Wind turbine type 3 or 4 model with which this reactive control model is associated.
Details:
 
Object Type Connection Direction Notes
IdentifiedObject Class Generalization To