Inductors An inductor is about as simple as an electronic component can get -- it is simply a coil of wire. The inductor is an electromagnet .

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Presentation transcript:

Inductors An inductor is about as simple as an electronic component can get -- it is simply a coil of wire. The inductor is an electromagnet .

Inductor in a circuit What you see here is a battery, a light bulb, a coil of wire around a piece of iron (yellow) and a switch. The coil of wire is an inductor. If you were to take the inductor out of this circuit, you get a normal flashlight. But with the inductor there, when you close the switch, the bulb burns brightly and then gets dimmer. When you open the switch, the bulb burns very brightly and then quickly goes out.

How does it work? The reason for this is that when current first starts flowing in the coil, the coil wants to build up a magnetic field. While the field is building, the coil inhibits the flow of current. Once the field is built, current can flow normally through the wire. When the switch gets opened, the magnetic field around the coil keeps current flowing in the coil until the field collapses. This current keeps the bulb lit for a period of time even though the switch is open. In other words, an inductor can store energy in its magnetic field, and an inductor tends to resist any change in the amount of current flowing through it.

The capacity of an inductor is controlled by four factors:

How to calculate Henrys?

For example:

Inductors in Parallel Inductors in a parallel configuration each have the same potential difference (voltage). To find their total equivalent inductance (Leq):

Inductors in Series The current through inductors in series stays the same, but the voltage across each inductor can be different. The sum of the potential differences (voltage) is equal to the total voltage. To find their total inductance:

Applications Let's say you take a coil of wire perhaps 6 feet (2 meters) in diameter, containing five or six loops of wire. You cut some grooves in a road and place the coil in the grooves. You attach an inductance meter to the coil and see what the inductance of the coil is. Now you park a car over the coil and check the inductance again. The inductance will be much larger because of the large steel object positioned in the loop's magnetic field. The car parked over the coil is acting like the core of the inductor, and its presence changes the inductance of the coil. Most traffic light sensors use the loop in this way. The sensor constantly tests the inductance of the loop in the road, and when the inductance rises it knows there is a car waiting!