Rating 3.71 out of 5 (7 ratings in Udemy)
What you'll learn- Ansys Maxwell 3D and 2D
- PEMag and Simplorer
- High Frequency transformer simulation
- Setting up excitations for the primary and secondary windings of the transformer
- Looking at Flux density, current density, wire and core losses in 2D and 3D
- Finite element analysis
DescriptionIf you want discount on the course, please goto my youtube channel and use the coupon there. Under Instructor profile there is a Youtube link.
In this …
Rating 3.71 out of 5 (7 ratings in Udemy)
What you'll learn- Ansys Maxwell 3D and 2D
- PEMag and Simplorer
- High Frequency transformer simulation
- Setting up excitations for the primary and secondary windings of the transformer
- Looking at Flux density, current density, wire and core losses in 2D and 3D
- Finite element analysis
DescriptionIf you want discount on the course, please goto my youtube channel and use the coupon there. Under Instructor profile there is a Youtube link.
In this course you will learn how to setup a high frequency transformer in PEMag first. Setup the bobbin, choose the core and material, setup the wire size and insulation type etc. After setting up PEmag, the same transformer file can be exported to Ansys Electronics Desktop and setup as Maxwell 2D or Maxwell 3D. Then, in the Maxwell section, you will add the copper for shield winding, primary and secondary winding. AWGsolid round wire is setup for primary winding and Litz wire is setup for the secondary winding. Several other parameters are setup in 2D transient and 3D transient. Various solution types will be discussed however focus will be on magnetic transient 2D and 3D since Flyback circuit has primary and secondary winding currents which appear as triangular waveforms. For non-sinusoidal waveforms, transient solution type will be setup. The simplorer circuit simulation is used to push the excitations for the primary and secondary winding of the transformer. After setting up Maxwell completely, you will look at core loss in the ferrite material , you will look at the copper winding losses in the primary and secondary, flux density in the core, current density in the wire, and the flux lines etc.