IEC61970 16v29a
Public Attributes | List of all members
IEC61970::Dynamics::StandardModels::AsynchronousMachineDynamics::AsynchronousMachineEquivalentCircuit Class Reference

#include <AsynchronousMachineEquivalentCircuit.h>

Inheritance diagram for IEC61970::Dynamics::StandardModels::AsynchronousMachineDynamics::AsynchronousMachineEquivalentCircuit:
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Collaboration diagram for IEC61970::Dynamics::StandardModels::AsynchronousMachineDynamics::AsynchronousMachineEquivalentCircuit:
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Public Attributes

IEC61970::Base::Domain::PU rr1
 
IEC61970::Base::Domain::PU rr2
 
IEC61970::Base::Domain::PU xlr1
 
IEC61970::Base::Domain::PU xlr2
 
IEC61970::Base::Domain::PU xm
 
- Public Attributes inherited from IEC61970::Dynamics::StandardModels::AsynchronousMachineDynamics::AsynchronousMachineDynamics
IEC61970::Base::Wires::AsynchronousMachineAsynchronousMachine
 
- Public Attributes inherited from IEC61970::Dynamics::StandardModels::RotatingMachineDynamics
IEC61970::Base::Domain::Float damping
 
IEC61970::Base::Domain::Seconds inertia
 
IEC61970::Base::Domain::Float saturationFactor
 
IEC61970::Base::Domain::Float saturationFactor120
 
IEC61970::Base::Domain::PU statorLeakageReactance
 
IEC61970::Base::Domain::PU statorResistance
 
- Public Attributes inherited from IEC61970::Dynamics::StandardModels::DynamicsFunctionBlock
IEC61970::Base::Domain::Boolean enabled
 
- Public Attributes inherited from IEC61970::Base::Core::IdentifiedObject
IEC61970::Base::Domain::String aliasName
 
IEC61970::Base::Domain::String description
 
IEC61970::Base::Domain::String mRID
 
IEC61970::Base::Domain::String name
 
std::list< IEC61970::Base::DiagramLayout::DiagramObject * > DiagramObjects
 

Detailed Description

The electrical equations of all variations of the asynchronous model are based on the AsynchronousEquivalentCircuit diagram for the direct and quadrature axes, with two equivalent rotor windings in each axis.

Equations for conversion between Equivalent Circuit and Time Constant Reactance forms: Xs = Xm + Xl X' = Xl + Xm * Xlr1 / (Xm + Xlr1) X'' = Xl + Xm * Xlr1* Xlr2 / (Xm * Xlr1 + Xm * Xlr2 + Xlr1 * Xlr2) T'o = (Xm + Xlr1) / (omega0 * Rr1) T''o = (Xm * Xlr1 + Xm * Xlr2 + Xlr1

Member Data Documentation

◆ rr1

IEC61970::Base::Domain::PU IEC61970::Dynamics::StandardModels::AsynchronousMachineDynamics::AsynchronousMachineEquivalentCircuit::rr1

Damper 1 winding resistance.

◆ rr2

IEC61970::Base::Domain::PU IEC61970::Dynamics::StandardModels::AsynchronousMachineDynamics::AsynchronousMachineEquivalentCircuit::rr2

Damper 2 winding resistance.

◆ xlr1

IEC61970::Base::Domain::PU IEC61970::Dynamics::StandardModels::AsynchronousMachineDynamics::AsynchronousMachineEquivalentCircuit::xlr1

Damper 1 winding leakage reactance.

◆ xlr2

IEC61970::Base::Domain::PU IEC61970::Dynamics::StandardModels::AsynchronousMachineDynamics::AsynchronousMachineEquivalentCircuit::xlr2

Damper 2 winding leakage reactance.

◆ xm

IEC61970::Base::Domain::PU IEC61970::Dynamics::StandardModels::AsynchronousMachineDynamics::AsynchronousMachineEquivalentCircuit::xm

Magnetizing reactance.


The documentation for this class was generated from the following files: