: Public Class
Created: 08/05/2008 14:13:19
Modified: 31/01/2014 13:35:16
Project:
Advanced:
A facility for providing variable and controllable shunt reactive power. The SVC typically consists of a stepdown transformer, filter, thyristor-controlled reactor, and thyristor-switched capacitor arms.<br/><br/>The SVC may operate in fixed MVar output mode or in voltage control mode. When in voltage control mode, the output of the SVC will be proportional to the deviation of voltage at the controlled bus from the voltage setpoint.  The SVC characteristic slope defines the proportion.  If the voltage at the controlled bus is equal to the voltage setpoint, the SVC MVar output is zero.<br/>
Attribute
Public Reactance
  capacitiveRating
Details:
Notes: Maximum available capacitive reactance.<br/><br/>
Public Reactance
  inductiveRating
Details:
Notes: Maximum available inductive reactance.<br/><br/>
Public ReactivePower
  q
Details:
Notes: Reactive power injection. Load sign convention is used, i.e. positive sign means flow out from a node.<br/>Starting value for a steady state solution.<br/>
Public VoltagePerReactivePower
  slope
Details:
Notes: The characteristics slope of an SVC defines how the reactive power output changes in proportion to the difference between the regulated bus voltage and the voltage setpoint.<br/>
Public SVCControlMode
  sVCControlMode
Details:
Notes: SVC control mode.<br/>
Public Voltage
  voltageSetPoint
Details:
Notes: The reactive power output of the SVC is proportional to the difference between the voltage at the regulated bus and the voltage setpoint.  When the regulated bus voltage is equal to the voltage setpoint, the reactive power output is zero.<br/>
Object Type Connection Direction Notes
StaticVarCompensator Class Dependency From  
RegulatingCondEq Class Generalization To