WRIG - Wound Rotor Induction Generator
Connection Diagram:
SENSOR | ||||
L1 | ||||
SHAFT | L2 | |||
L3 | ||||
R1 | R2 | R3 |
Connections(10) | Position | Remark |
SHAFT | Left | |
SENSOR | Top | |
R3 | Bottom | |
R2 | Bottom | |
R1 | Bottom | |
L3 | Right | |
L2 | Right | |
L1 | Right |
Parameters(9) | Default | Remark |
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,