||This article does not have any sources. (July 2010)|
How it works[change | change source]
Loudspeakers use both electric and mechanical principles to convert an electrical signal from a radio, television set or electric musical instrument into sound. For a loudspeaker to produce sound, the signal from the radio, television set, or electric musical instrument needs to be connected to an electronic amplifier.
Loudspeakers are usually built by using stiff paper cone, a coil of thin copper wire, and a circular magnet. The cone, copper wire, and magnet are usually mounted in a rectangle-shaped wood cabinet. The coil of copper wire moves back and forth when an electrical signal is passed through it. The coil of copper wire and the magnet cause the rigid paper cone to vibrate and reproduce sounds.
Inside loudspeaker can be audio crossover.
Types of loudspeakers[change | change source]
Some loudspeakers are designed for lower-pitched sounds, such as woofer loudspeakers or subwoofer loudspeakers. Other loudspeakers, which are called tweeters, are designed to reproduce high-pitched sounds (such as the sound of a whistle or a bird singing).
Loudspeakers for electric musical instruments are usually much stronger and heavier than loudspeakers for radios or television sets. Loudspeakers main function is to convert electrical signals given to it into sound signals.
History[change | change source]
Alexander Graham Bell invented the first loudspeaker in 1876. Bell invented the loudspeaker because he needed a device that would amplify sound for the telephone. In 1878, Ernst Siemens from Germany invented an improved type of loudspeaker.
Other websites[change | change source]
|The Simple English Wiktionary has a definition for: loudspeaker.|
|Wikimedia Commons has media related to: Loudspeaker|
- "ALMA International: Loudspeaker Industry Trade Organization". almainternational.org. http://www.almainternational.org/. Retrieved 11 April 2010.
- "Efficiency and sensitivity conversion - loudspeaker percent and dB loudspeaker efficiency versus sensitivity vs - sengpielaudio Sengpiel Berlin". sengpielaudio.com. http://www.sengpielaudio.com/calculator-efficiency.htm. Retrieved 11 April 2010.