Magnetomotive device based on reluctance force
The Reluctance Force Actuator block models a generic magnetomotive device based on reluctance force.
The block is based on the following equations:
|Φ||Flux in the magnetic circuit|
|x||Thickness or length of the air gap|
|μr||Relative permeability of the material|
|A||Cross-sectional area of the section being modeled|
Connections N and S are magnetic conserving ports, and connections C and R are mechanical translational conserving ports. The magnetic force produced by the actuator acts to close the gap, therefore the resulting force is negative when it acts from C to R.
The current excitation in the system is constant.
Only axial reluctance is modeled.
Thickness or length of air gap at the beginning of simulation. The default value is 2 mm.
Minimal value of air gap, with the reluctance force acting to close the air gap. The parameter value has to be greater than 0. The default value is 1e-4 mm.
Area of the section being modeled. The default value is 0.01 m^2.
Relative permeability of the section material. The default value is 1.
Stiffness that models the hard stop at the minimum air gap position. The default value is 10e6 N/m.
Damping that models the hard stop at the minimum air gap position. The default value is 500 N/(m/s).
Use the Variables tab to set the priority and initial target values for the block variables prior to simulation. For more information, see Set Priority and Initial Target for Block Variables.
The block has the following ports: