General
Home / Examples / Magnetic Analysis (Luvens, Transient Analysis) / Example 14: Analysis of Induction Motor with Specified Rotating Speed
A 3-phase cage induction motor is analyzed.
The magnetic field of the coils on the outer stator induces the eddy current on the conductive rotor in the center.
The interaction between the magnetic fields caused by the eddy current and that of the stator generates a torque to rotate the asynchronous motor.
The rotating speed is specified.
By changing the rotating speed, how the torque is changed can be analyzed.
Example 4 analyzes the same analysis model without specifying the rotating speed.
The torque and the magnetic flux density are solved.
Unless specified in the list below, the default conditions are applied.
Results will vary depending on Femtet version and the PC environment.
Item |
Settings |
Analysis Space |
2D |
Thickness in Depth Direction |
42 [mm] |
Unit |
mm |
Solver |
Magnetic Analysis [Luvens] |
Analysis Type |
Transient Analysis |
Analysis Options |
Select External Circuit Coupling. Select Rotating machinery.
[Partial Model (Symmetric Model) Setting] Select Partial Model. Division Number: 2 [Conversion of External Circuit I/O Values] Select Convert Number of Series: 1 Number of Parallels: 2 Select Convert the result to the full model for output |
The Rotating Machinery tab is set as follows.
Tab |
Setting Item |
Settings |
Rotating Machinery |
Rotational Move |
Select Constant Velocity Number of Rotations: 1267 [r/min] Rotor’s Initial Rotation Position: 0 [deg] |
Number of Sliding Mesh Divisions |
Circumferential Division Angle: 0.5 [deg] Number of Sliding Mesh Layers: 3 |
External circuit is as follows.
3-phase AC voltage of 50[Hz] is applied.
Set the Mesh Tab as follows.
Tab |
Setting Item |
Settings |
Mesh |
Meshing Setup |
Set the general mesh size automatically: Deselect General Mesh Size: 2 [mm] |
Automatic Ambient Air Creation |
Select Create ambient air automatically Ambient Air Scale: 1.2 |
The Transient Analysis tab is set up as follows.
One second is divided into 800 steps.
Tab |
Setting Item |
Settings |
|||||
Transient Analysis |
Timestep |
Automatic |
|||||
Table |
|
A rotor cage consisted of conductor and rotor core is placed in the center. A stator core and coils are placed around it.
This is a 2D model analysis. By utilizing the symmetry of the analysis model, it is made to be a half period symmetric model.
[Create ambient air automatically] is selected.
Small mesh size (0.3 mm) is applied to the gap.
Body Number/Type |
Body Attribute Name |
Material Name |
25/Sheet |
Cage |
Al |
26/Sheet |
Cage |
Al |
27/Sheet |
Cage |
Al |
28/Sheet |
Cage |
Al |
29/Sheet |
Cage |
Al |
30/Sheet |
Cage |
Al |
31/Sheet |
Cage |
Al |
32/Sheet |
Cage |
Al |
33/Sheet |
Cage |
Al |
34/Sheet |
Cage |
Al |
35/Sheet |
Cage |
Al |
36/Sheet |
Cage |
Al |
37/Sheet |
Cage |
Al |
38/Sheet |
Cage |
Al |
39/Sheet |
Cage |
Al |
40/Sheet |
Cage |
Al |
41/Sheet |
Cage |
Al |
24/Sheet |
Rotor |
50A1300 |
65/Sheet |
Stator |
50A1300 |
67/Sheet |
U1+ |
Cu |
68/Sheet |
U1+ |
Cu |
69/Sheet |
W1- |
Cu |
70/Sheet |
W1- |
Cu |
71/Sheet |
V1+ |
Cu |
72/Sheet |
V1+ |
Cu |
73/Sheet |
U1- |
Cu |
74/Sheet |
U1- |
Cu |
75/Sheet |
W1+ |
Cu |
76/Sheet |
W1+ |
Cu |
77/Sheet |
V1- |
Cu |
78/Sheet |
V1- |
Cu |
The body attribute is set up as follows.
Body Attribute Name |
Tab |
Settings |
Cage |
Stator/Rotor/Air |
Rotor |
Rotor |
Stator/Rotor/Air |
Rotor |
Stator |
Stator/Rotor/Air |
Stator |
U1- |
Current |
Waveform: External Circuit Coupling Coil Name on the Circuit: U1 Turns: 66 [Turns] Direction: - Y Direction |
Stator/Rotor/Air |
Stator |
|
U1+ |
Current |
Waveform: External Circuit Coupling Coil name on the circuit: U1 Turns: 66[Turns] Direction: +Y Direction |
Stator/Rotor/Air |
Stator |
|
V1- |
Current |
Waveform: External Circuit Coupling Coil Name on the Circuit: V1 Turns: 66 [Turns] Direction: - Y Direction |
Stator/Rotor/Air |
Stator |
|
V1+ |
Current |
Waveform: External Circuit Coupling Coil name on the circuit: V1 Turns: 66 [Turns] Direction: +Y Direction |
Stator/Rotor/Air |
Stator |
|
W1- |
Current |
Waveform: External Circuit Coupling Coil Name on the Circuit: W1 Turns: 66 [Turns] Direction: - Y Direction |
Stator/Rotor/Air |
Stator |
|
W1+ |
Current |
Waveform: External Circuit Coupling Coil name on the circuit: W1 Turns: 66 [Turns] Direction: +Y Direction |
Stator/Rotor/Air |
Stator |
The material properties are set as follows.
Material Name |
Tab |
Properties |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Al |
Conductivity |
Conductivity Type: Conductor Conductivity: 1.02x107 [S/m] |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Cu |
Conductivity |
Conductivity Type: Conductor Conductivity: 5.977x107 [S/m] |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
50A1300 |
Permeability |
Magnetization Characteristic Type: Select B-H Curve
B-H Curve Table
|
Symmetric period boundary is set.
Boundary Condition Name/Topology |
Tab |
Boundary Condition Type |
Settings |
Symmetric |
Symmetry/Continuity |
Periodic |
Rotation Period (1 Period) |
The distribution of the magnetic flux density and magnetic flux lines at the rotation angle of 0 [deg] are shown below.
The wave of torque is shown as follows. It is output to "Torque [N*m]" of the result table.
