Micro-Cap Circuit Simulator, How to model an Inductor using core models
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- Опубликовано: 25 июн 2021
- In this video, I use Micro-Cap to model an inductor using a core model that accepts physical parameters such as Ae (Effective Area), Le (Effective Length) and Gap Length. The model shows that when the Flux exceeds 0.3T (Tesla), the core saturates and you have a sharp increase in current. Questions or comments can be sent to rbola35618@aol.com. If you like this video, please subscribe, share, and give a thumbs up.
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Thanks a lot, Robert. Very informative. It shows, how good simulation and calculation match. It is also a great input that we can show flux density.
You could even show the inductance of the coil as L(Lpr). Then we see that in case of an air gap the inductance is nearly constant.
Thanks for the continuous contribution . All your dedicated videos very much useful for us.
Thank you Kubendran!
I love all your videos Robert, these are an amazing resource for aspiring power engineers!
Your comment is much appreciated! Thank you!
Muy buena simulación Robert. Micro-cap aun muestra cuan bueno es, me trajo recuerdos esto de cuando en un spreadsheet tenia que calcular y "simular" mis diseños de inductores y xfmrs en Falco, con esa bases de datos de materiales magnéticos guardadas por aquí y allá. Saludos.
Your video are very informative... It would be great if we can know how to create models in microcap
Waited a long time!
In this video, I use Micro-Cap to model an inductor using a core model that accepts physical parameters such as Ae (Effective Area), Le (Effective Length) and Gap Length. The model shows that when the Flux exceeds 0.3T (Tesla), the core saturates and you have a sharp increase in current. Questions or comments can be sent to rbola35618@aol.com. If you like this video, please subscribe, share, and give a thumbs up.
spectrum-soft.com/download/download.shtm