Webinar: Transformer and Inductor Modeling
Fanny Littmarck | January 31, 2013
Transformers are used to increase the voltage of an alternating current (AC) before moving it along the power grid via power lines. Since power lines lose energy through heating cased by electric currents, you can achieve more economical power transmission by transforming to a high voltage and low current. As a matter of fact, high voltage (HV) power transmission lines transmit portions of its power in the air surrounding it. Furthermore, as the current travels long distances through many transformer stages, small design-changes in transformers can have very large effects in overall power transmission. To show you how these design improvements can be made, we’re holding a webinar on transformer and inductor modeling together with IEEE Spectrum on February 7th.
E-core transformer: the magnetic flux density norm and currents in the winding.
Transformer and Inductor Modeling, Coupling AC/DC and Heat Transfer
A transformer is made up of at least two inductors with coupled magnetic flux. Inductors are simply put passive two-terminal electrical components with energy stored in their magnetic field. High-frequency AC tends to flow through the outer layer of a conductor, referred to as “skin effect“. The skin effect is important in terms of transformer efficiency as the frequency increases. As you can see, electrical and thermal effects are tightly coupled here, rendering this an excellent problem to solve using multiphysics simulation. In the webinar next week, Magnus Olsson, Product Manager of Electromagnetics, will show you how you can use COMSOL Multiphysics together with the AC/DC and Heat Transfer Module to simulate transformers and inductors. As usual, the webinar will begin with an overview of COMSOL, then Magnus will show you some examples specific to the topic. Among other things, you will see a demo video of the inductive heating of a billet as well as the modeling of a single-phase e-core transformer, with some tips and tricks along the way.
The Transformer and Inductor Modeling with COMSOL Multiphysics webinar is free-of-charge, but you will need to register in advance.
Find out how ABB used COMSOL Multiphysics to model transformers in COMSOL News 2012.
Injectable Microbubbles in Hydrology and Healthcare
- Applications 14
- Certified Consultants 32
- Chemical 60
- COMSOL Now 148
- Conference 107
- Core Functionality 87
- Electrical 155
- Fluid 101
- Interfacing 41
- Mechanical 176
- Multipurpose 17
- Tips & Tricks 16
- Trending Topics 56
- User Perspectives 84
- Video 68