# Wire Over Plane Inductance

A wire over plane inductance calculator is a tool used to calculate the inductance of a wire or conductor that is positioned above a flat conducting plane. This type of inductance is commonly encountered in printed circuit boards, transmission lines, and other electronic systems.

The inductance of a wire over a conducting plane is affected by several factors, including the distance between the wire and the plane, the shape and size of the wire, the dielectric constant of the material between the wire and the plane, and the frequency of the signal passing through the wire.

To calculate the inductance of a wire over a plane, the calculator typically requires the user to input values for these factors. For example, the distance between the wire and the plane is an important parameter that affects the inductance, and is often measured in units of millimeters or micrometers.

The shape and size of the wire also play a significant role in determining the inductance. A wire with a larger diameter will generally have a higher inductance than a wire with a smaller diameter. Similarly, a wire that is longer or has more turns will have a higher inductance than a shorter wire with fewer turns.

The dielectric constant of the material between the wire and the plane is another important factor that affects the inductance. This parameter is a measure of the ability of the material to store electrical charge and is typically measured in units of picofarads per meter.

Once the user has inputted the relevant parameters, the wire over plane inductance calculator will typically output a numerical value for the inductance of the wire. This value can be used to design and optimize electronic circuits and systems.

Overall, the wire over plane inductance calculator is a useful tool for engineers and designers working on electronic systems, and can help to ensure that circuits and devices operate as intended.

Inputs

Wire Diameter Height Above Plane D milcmmmuminch H milcmmmuminch L milcmmmuminch μR

Output

Inductance: 0

Disclaimer:

It is believed that these calculations are accurate, but not guaranteed. Use at your own risk!