Disturbance response evaluation of magnetic bearings.
Afficher commentaires plus anciens
In the block diagram of the magnetic bearing below, how can we apply a disturbance in [Newton] dimensions?
Réponse acceptée
Arnav
le 6 Sep 2024
0 votes
Since the external force is in Newtons, it cannot be directly added to the input of the plant which is expecting current in Amperes. For example, let us assume the following transfer function for the plant:
This can be written as the following ordinary differential equation by taking inverse Laplace transform as:
We can incorporate the External force f(t) here as:
Taking Laplace transform again we have:
From this, it can be observed that a force 
can be provided to the plant together with the output from the controller to simulate an external force acting on the magnetic bearing.
can be provided to the plant together with the output from the controller to simulate an external force acting on the magnetic bearing. The following picture shows a screenshot of a Simulink model where the disturbance force is incorporated:
You can try a similar approach with the transfer function of your plant.
Regards,
Arnav
Plus de réponses (0)
Catégories
En savoir plus sur Dynamic System Models dans Centre d'aide et File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
