The air domain is bounded by an infinite element region. We begin by building a model of a single-turn coil under DC conditions from start to finish. In the first five parts of the course, we provide foundational knowledge regarding coil modeling and present information that is built on in the remaining sessions. For the first five parts, we will work in the 2D axisymmetric space. It is with this assumption that our coil modeling course begins. It’s often a reasonable engineering simplification to assume that the coil can be treated as a closed loop, meaning that it is axisymmetric, or invariant around the centerline.Ī simple one-turn coil can also be modeled using a 2D axisymmetric assumption. The simplest electromagnetic coil is a single turn of current-carrying wire, as you’ll see in almost any introduction to the topic. Getting Started with Modeling Electromagnetic Coils
Let’s quickly review what’s in these videos and how to use the course to your best advantage! Looking for a quick, self-paced, guided introduction to electromagnetic coil modeling with the COMSOL Multiphysics® software and the AC/DC Module? We put together a course of video lectures that walk you through the modeling of electromagnetic coils, designed to show the key aspects of building such models.
