SMPM_Inverter

Test example: PermanentMagnetSynchronousInductionMachine with inverter

Diagram

Information

This information is part of the Modelica Standard Library maintained by the Modelica Association.

An ideal frequency inverter is modeled by using a VfController and a three-phase SignalVoltage. Frequency is raised by a ramp, causing the permanent magnet synchronous induction machine to start, and accelerating inertias. At time tStep a load step is applied.

Simulate for 1.5 seconds and plot (versus time):

  • currentQuasiRMSSensor.I: stator current RMS
  • smpm.wMechanical: motor's speed
  • smpm.tauElectrical: motor's torque
  • rotorDisplacementAngle.rotorDisplacementAngle: rotor displacement angle

Default machine parameters are used.

In practice it is nearly impossible to drive a PMSMD without current controller.

Parameters (8)

VNominal

Value: 100

Type: Voltage (V)

Description: Nominal RMS voltage per phase

fNominal

Value: 50

Type: Frequency (Hz)

Description: Nominal frequency

f

Value: 50

Type: Frequency (Hz)

Description: Actual frequency

tRamp

Value: 1

Type: Time (s)

Description: Frequency ramp

TLoad

Value: 181.4

Type: Torque (N·m)

Description: Nominal load torque

tStep

Value: 1.2

Type: Time (s)

Description: Time of load torque step

JLoad

Value: 0.29

Type: Inertia (kg·m²)

Description: Load's moment of inertia

smpmData

Value:

Type: SM_PermanentMagnetData

Components (12)

smpm

Type: SM_PermanentMagnet

currentQuasiRMSSensor

Type: CurrentQuasiRMSSensor

rotorDisplacementAngle

Type: RotorDisplacementAngle

ramp

Type: Ramp

vfController

Type: VfController

signalVoltage

Type: SignalVoltage

star

Type: Star

ground

Type: Ground

loadInertia

Type: Inertia

loadTorqueStep

Type: TorqueStep

terminalBox

Type: TerminalBox

smpmData

Type: SM_PermanentMagnetData