Solutions

Reduce the number of prototypes Evaluate self-inductance, leakage inductance, and coupling coefficient in the design stage Examine 3D flux distribution in the core for size reduction Vary the parameters of core gap or winding while maintaining the required inductance to reduce the heat in the core and wires.
	3D Flux Density Distribution

Visualize complex physical phenomena

• Check for uneven current distribution in wires due to the skin or proximity effect caused by a high frequency, and determine an appropriate wire type.
• Check the effects of magnetic fields due to the flux leakage or magnetic saturation in a core gap, and determine the winding pattern.
• Check the heat flow from the iron loss in the core or copper loss in wires as the heat source, and determine the optimal insulation.
• Check the electromagnetic force in a core gap, and determine the optimal gap design and material for the spacer.

Streamline routine processes

• Streamline the processes from output request, core selection, inductance calculation, winding configuration, to DC saturation check.
• Save the input and result data for reference or reuse.