Please have a look at UsersGuide.ReluctanceForceCalculation for an explanation of the different flux tube categories and resulting sub-packages.
Flux tube elements with generation of a reluctance force are intended for modelling of position-dependent air gap sections and permanent magnet sections respectively of translatory actuators. By default, the position co-ordinate of the mechanical connector flange.s is identical with the dimension l of the package's flux tube elements. l is the dimension changes with armature motion. If needed, the identity l=flange.s can be replaced by an actuator-specific equation, for example, when a flux tube length increases with decreasing armature position. The position co-ordinate of an element's translatory connector flange.s in turn will be identical with the armature position x in most cases, as the examples illustrate.
The derivative of each element's permeance with respect to
armature position dGmBydx
is calculated from the
derivative of the flux tube's permeance with respect to its varying
dimension dGmBydl and the derivative of this dimension with respect
to armature position dlBydx
:
dG_m dG_m dl ---- = ---- * -- dx dl dx
The parameter dlBydx
must be set in each flux tube
element to +1 or -1 according to the definition of the armature
co-ordinate and the position of the element in a device's magnetic
circuit. Proper match between armature motion and resulting
variation of the flux tube length assures that the element's
reluctance force acts in the right direction.
The shapes of the flux tubes defined in this package are rather simple. Only one dimension varies with armature motion. Flux tubes with more complex variations of dimensions with armature motion can be defined by extending the base class Interfaces.PartialForce, if needed. Determination of the analytic derivative dGmBydl could become more complex for those flux tubes.
Name | Description |
---|---|
HollowCylinderAxialFlux | (Hollow) cylinder with axial flux; constant permeability |
HollowCylinderRadialFlux | Hollow cylinder with radial flux; constant permeability |
CuboidParallelFlux | Cuboid with flux in direction of motion, e.g., air gap with rectangular cross-section; constant permeability |
CuboidOrthogonalFlux | Cuboid with flux orthogonal to direction of motion; constant permeability |
LeakageAroundPoles | Leakage flux tube around cylindrical or prismatic poles |