At VHF frequencies, and above, skin effect will reduce the inductance. The constant, 0.75 will approach infinity, however, skin effect will not reduce the inductance by more than a few percent.

Enter your data below. Internally, all input data is converted to inches for calculation purposes, however, for entry purposes, the dimensions can be mixed or matched.

This section is very similar to the section above, except that this wire is close to a ground plane and has one end grounded to that ground plane. The figure to the right details the dimensional requirements.

As you can see from the equation in the drawing, it's quite a messey job calculating the inductance. But you don't have to deal with the equation. Just enter your data in the spaces provided and let the web page do the calculation. All input data is converted to inches for calculation purposes, however, for entry purposes, the dimensions can be mixed or matched.

The diagram on the right shows the dimensional requirements for calculating the inductance of a Flat Strip over a Ground Plane. The drawing shows a Copper Strip of width w and length b, separated from a Ground Plane of thickness h. The Flat Strip is often etched into a printed circuit board and the Ground Plane is usually a continuous layer of copper on the opposite side of a printed circuit board. In that case, the thickness h would be the printed circuit board thickness.

Just enter your data in the spaces provided and let the web page do the calculation. All input data is converted to inches for calculation purposes, however, for entry purposes, the dimensions can be mixed or matched.