WRIG - Wound Rotor Induction Generator

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Connection Diagram:

    SENSOR    
     L1
SHAFTL2
    L3
R1R2R3

Connections(10)PositionRemark
SHAFT Left
SENSOR Top
R3 Bottom
R2 Bottom
R1 Bottom
L3 Right
L2 Right
L1 Right

Parameters(9)DefaultRemark
WindingRatio 1 Ratio between the number of stator and rotor windings N=Nstator/Nrotor
Rs 1.2m Stator resistance
Rr=Rr'/N^2 5.2m Rotor resistance in the rotor reference frame
f 1u Friction of the rotor
J 240 Rotor Inertia
Ls 0.118m Stator leakage inductance
Lr=Lr'/N^2 0.308m Rotor leakage inductance in the rotor reference frame
Lm 9.1m Stator Magnetizing Inductance
p 2 pole pairs

Function Induction machine model based on the stator fixed coordinate system. The rotor terminals are accessible on the left.
Special Both the stator and rotor windings are in wye configuration. The rotor leakage inductance Lr and the rotor resistance are now in the rotor reference frame.
Note The rotor terminals always have to be connected to a three-phase circuit. Default parameters are fora 2.75 MW wind turbine generator

Status Standard

Select from Components\Library\ElectricalMachines\IM

See also
delta, IM, IMuvwxyz, IMuvwxyzWR, IMwye, IMWYEwr, IMwye_Saturation, IMYD, IMYD_NamePlate, IM_DQSENSOR, IM_RotorSensor, IM_SquirrelCage, IM_StatorSensor, InductionMachineNamePlateParameters, Kloss, RotorResistance, WRIG2,
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