Passive components used in power converters

In power converters, passive components play an important role, and have in general specific nature and properties. The goal of this tutorial is to give an overview, first on inductive components for power conversion, and second on dedicated power capacitors. In a third part, new components— supercapacitors—will be presented. Generally, inductors for power applications must be custom designed. In this tutorial, the most important effects encountered when realising inductive components will be presented in the first part, without entering into the detailed design of such components. For that purpose, the referenced documents that have served as a base for this tutorial must be consulted [1], [2], and mainly [3]. The second part of this tutorial (Capacitors used in power electronics) is dedicated to power capacitors. Unlike inductors, capacitors cannot be specifically designed, but must be selected from a manufacturer’s list of components. Here, the documentation corresponds to a subset of Ref. [4] that has been translated by Dr. Martin Veenstra. The third part of the tutorial (Supercapacitors and applications) presents supercapacitors, new components that have very high energy density and high power density. Modelling and design rules for several applications are presented. This part of the document uses as a base the study made by Dr. Philippe Barrade [5]. Finally, it must be noted that, even with a correct selection or design of passive elements, there can be parasitic effects caused by interactions between components of the same or different nature. As an example, by designing filters combining several passives like inductors and capacitors, the primary specification may be modified by the interaction of parasitics, typically a mutual coupling between the parasitic inductances of neighbouring capacitors. A good description of such effects can be found in Ref. [6].