Parts of an Eddy-Current Speedometer

Before we take a look inside a speedometer, it will be helpful to review how a car works in the first place. The basic process is described below:

1. Piston engines use energy from a burning fuel-air mixture to move a piston up and down in a cylinder.
2. This reciprocating motion of the pistons is converted into rotary motion by a crankshaft.
3. The crankshaft turns a flywheel.
4. The transmission transmits power from the flywheel and directs it, through a driveshaft, to the wheels.
5. The transmission has different gears -- or speeds -- to control how fast the wheels turn.
6. As the wheels turn, they cause the car to move.

To measure the speed of a car, one must be able to measure the rotational speed of either the wheels or the transmission and send that information to some sort of gauge. In most cars, measurement takes place in the transmission. And the job of measuring the rotational speed generated by the transmission falls to something called a drive cable.

Photo used under the Creative Commons License 2.0 The needle of a speedometer

The drive cable consists of a number of superimposed, tightly wound, helical coil springs wrapped around a center wire, or mandrel. Because of its construction, the drive cable is very flexible and can be bent, without fracture, to a very small radius. This is handy because the cable must snake its way from the transmission to the instrument cluster, which houses the speedometer. It is connected to a set of gears in the transmission, so that when the vehicle moves, the gears turn the mandrel inside the flexible shaft. The mandrel then communicates the rotational speed of the transmission down the length of the cable to the "business end" of the speedometer -- where the speed measurement actually takes place.

The speedometer has other important parts, as well. The drive cable attaches, via a spiral gear, to a permanent magnet. The magnet sits inside a cup-shaped metal piece known as the speedcup. The speedcup is attached to a needle, which is held in place by a hairspring. The needle is visible in the cockpit of the car, as is the speedometer face, which displays a range of numbers from zero to an upper limit that can vary by make and model.

Meter, Meter Everywhere Speedometers are often combined with odometers and trip odometers. An odometer registers the total distance traveled by a vehicle. Trip odometers measure distance traveled, too, but they can be reset to zero by the driver. Manufacturers typically design mechanical speedometers so that 1,000 revolutions of the flexible shaft will register one mile on the odometer. For even more about odometers, see How Odometers Work. Tachometers are similar to speedometers in that they measure the angular speed of a rotating shaft. Tachometers reflect engine speed, which means they are measuring the rotational speed of the crankshaft. They indicate engine speed in revolutions per minute, or rpm.­

Now let's look at how this relatively simple device actually measures vehicle speed.