Spark image

Tesla coil

Question: How does a tesla coil work?


This device, called a Tesla coil or an Induction coil, which is the basis of many ignition systems for cars, uses the mutual inductance between two coils to produce a high voltage.

A primary coil consisting of a small number of turns of thick copper wire is wound round a bundle of soft iron rods which are insulated from each other. The secondary coil, which may consist of many hundreds of metres of fine wire, is wound over the primary.

On closing the switch a current flows in the primary and magnetises the core, which attracts the armature and breaks the primary circuit. The magnetic field dies away; the armature is pulled back by the spring and the current flows again. The process then repeats itself.

The rapidly changing magnetic field produces a high voltage in the primary coil; the greater the rate at which this field changes, the greater is the induced voltage. A capacitor is connected across the make and break contacts; this reduces sparking and also causes the field to die away much more rapidly than if the capacitor had not been present. As a result the induced voltage in the secondary is much greater when the circuit is broken than when it is made. The secondary current therefore pulsates, but it is always in the same direction. Sparks of several centimetres in length may be obtained through air at atmospheric pressure with quite small induction coils, and larger coils were originally used to power X-ray tubes.

© Keith Gibbs 2011