Defining a Single-Phase Induction Motor

The general procedure for structurally defining a single-phase induction motor is as follows:

  1. Insert a single-phase induction motor design in an existing or newly created project.
  2. Double-click the Machine entry in the Project Manager tree to define the general data.
  3. Double-click the Machine > Stator entry in the Project Manager tree to define the stator geometry.
  4. Double-click the Machine > Stator > Slot entry in the Project Manager tree to define the stator slot dimensions.
  5. Double-click the Machine > Stator > Winding entry in the Project Manager tree to define the stator windings and conductors.
  6. Double-click the Machine > Rotor entry in the project tree to define the rotor geometry.
  7. Double-click the Machine > Rotor > Slot entry in the project tree to define the rotor slot dimensions.
  8. Double-click the Machine > Rotor > Winding entry in the Project Manager tree to define the rotor conductor, ventage hole dimensions, and skew.
  9. Double-click the Machine-Shaft entry in the Project Manager tree to define the magnetism of the shaft.
  10. Optionally, for Inner Rotor machines only, right-click the Machine entry in the Project Manager tree and click Insert Housing to add a machine housing.
  11. Right-click Analysis in the Project Manager tree, and click Add Solution Setup to define the solution data.
  12. Choose File > Save to save the project.
  13. Choose RMxprt > Analyze to analyze the design.
Note: When you place the cursor over an entry field in the data windows, a brief description of that field appears in the status bar at the bottom of the RMxprt window.

Once the design is analyzed, the model can be imported into the Maxwell 2D Modeler, or can be used to create a new Maxwell 2D project, and a new Maxwell 3D design.

For a specific example of a single-phase induction motor problem, see the A Capacitor-Run Single-Phase Induction Motor Problem application note, on the technical support page of the Ansys web site.