A voice coil actuator consists of a current carrying coil interacting with a permanent magnet. They received their name due to their common use in audio loudspeakers. Voice coils are also commonly used in the read/write heads of computer hard drives.
While they are in some ways similar to solenoids, they have several useful differences. First, reversing the current flow in the coil causes a reversal in the interaction with the field of the permanent magnet. This allows for the voice coil to move in both directions. Second, the displacement of the voice coil is proportional to the current in the coil. These two properties allow for the production of positive and negative air pressure variations of varying amplitude, as in a loudspeaker. The proportionality of the movement of the voice coil allows its use for the accurate positioning necessary for computer hard drives1).
Voice coils typically consist of a non-magnetic center pole, a cylindrical coil connected to the power supply, and an outer cylindrical permanent magnet. The current running through the coil creates a magnetic field, which interacts with the field established by the permanent magnet.
Some of the earliest designs of voice coils came from loudspeakers. The majority of loudspeakers are still constructed with voice coils2). The design of a speaker system relies as much upon the speaker enclosure as the speaker driver3).
Computer hard drives use voice coils for the positioning of read/write heads4).
D. Birnbaum's breakflute uses voice coils placed in the toneholes of a flute. When the performer's fingers are placed on the toneholes the voice coils give haptic signals to their fingertips5).
Voice coils have been used to provide vibrotactile feedback. The device used by Giordana and Wanderley varies from the standard voice coil design in that the permanent magnet is the moving element and floats freely inside the coil6).
Arrays of voice coils have been used for the creation of tactile displays7).