Carbon microphone from Western Electric telephone.

The carbon microphone, also known as a carbon button microphone (or sometimes just a button microphone) or a carbon transmitter, is a sound-to-electrical signal transducer, consisting of two metal plates separated by granules of carbon. One plate faces outward and acts as a diaphragm. When sound waves strike this plate, the pressure on the granules changes, which in turn changes the electrical resistance between the plates. (Higher pressure lowers the resistance as the granules are pushed closer together.) A direct current is passed from one plate to the other, and the changing resistance results in a changing current, which can be passed through a telephone system, or used in other ways in electronics systems to change the sound into an electrical signal. Image File history File links Carbon-Button-Microphone. ... Image File history File links Carbon-Button-Microphone. ... Microphones redirects here. ... This article is about transducers in engineering. ...

Carbon microphones once had the advantages of low cost, high output level, and low impedance. However, they suffered from very low quality of sound reproduction and limited frequency response, as well as a high noise (hiss) level, so they were abandoned for radio broadcasting after the 1920s, and were not used for public address and amateur radio after the 1930s.^[1] Frequency response is the measure of any systems response to frequency, but is usually used in connection with electronic amplifiers and similar systems, particularly in relation to audio signals. ...

History

The invention of the carbon microphone (then called a "transmitter") was claimed both by Thomas Alva Edison in March 1878^[2] and separately by Emile Berliner who filed related patent applications in June 1877 and August 1879.^[3] The two sides fought a long legal battle over the patent rights. Ultimately a federal court awarded Edison full rights to the invention of the carbon microphone, saying "Edison preceded Berliner in the transmission of speech...The use of carbon in a transmitter is, beyond controversy, the invention of Edison" and the Berliner patent was ruled invalid. British courts also ruled in favor of Edison over Berliner. Having settled the Dowd suit (after Peter A. Dowd, agent of Western Union) out of court in 1881, Western Union left the telephone business, and sold Edison's patent rights and related assets to the Bell company in exchange for 20% of telephone rental receipts. Subsequently Bell telephones used the Bell receiver and the Edison transmitter. (Josephson, pp. 147-151). Later, carbon granules were used between carbon buttons. Carbon microphones were widely used in telephones in the United States from 1890 until the 1980s.^[2] Thomas Alva Edison (February 11, 1847 - October 18, 1931) was an inventor and businessman who developed many important devices. ... Emile Berliner with disc record gramophone. ...

Carbon microphones used as amplifiers

One of the surprising attributes of carbon microphones is that they can actually be used as amplifiers. This capability was used in early telephone repeaters, making long distance phone calls possible in the era before vacuum tubes. In these repeaters, a magnetic telephone receiver (an electrical-to-mechanical transducer) was mechanically coupled to a carbon microphone. Because a carbon microphone works by varying a current passed through it, instead of generating a signal voltage as with most other microphone types, this arrangement could be used to boost weak signals and send them down the line. These amplifiers were mostly abandoned with the development of vacuum tubes, which offered higher gain and better sound quality. Even after vacuum tubes were in common use, carbon amplifiers continued to be used during the 1930s in portable audio equipment such as hearing aids. The Western Electric 65A carbon amplifier was 1.2" in diameter and 0.4" high and weighed less than 1.4 ounces.^[4] Such carbon amplifiers did not require the heavy bulky batteries and power supplies used by vacuum tube amplifiers. Transistors replaced vacuum-tube amplifiers in hearing aids in the 1950s. However, carbon amplifiers are still being produced and sold.^[5] For the British rock band of the same name, see Amplifier (band). ... This article is about transducers in engineering. ... Structure of a vacuum tube diode Structure of a vacuum tube triode In electronics, a vacuum tube, electron tube, or (outside North America) thermionic valve or just valve, is a device used to amplify, switch or modify a signal by controlling the movement of electrons in an evacuated space. ... In electronics, gain is usually taken as the mean ratio of the signal output of a system to the signal input of the system. ... Sound quality generally is the quality of the audio output from various electronic devices. ...

One illustration of the amplification provided by carbon microphones was the oscillation caused by feedback, that resulted in an audible squeal from the old "candlestick" telephone if its earphone was placed near the carbon microphone.

Early radio

Early AM radio transmitters relied on carbon microphones for voice modulation of the radio signal. In the first audio transmissions by Reginald Fessenden a continuous wave from an Alexanderson alternator was fed through a carbon microphone. Amplitude modulation (AM) is a technique used in electronic communication, most commonly for transmitting information via a radio carrier wave. ... In communications and information processing, a transmitter (sometimes abbreviated XMTR) is an object (source) which sends information to an observer (receiver). ... Audio can mean: Sounding that can be heard. ... Reginald Fessenden (October 6, 1866 – July 22, 1932) was a Canadian inventor, best known for his work in early radio. ... A continuous wave (CW) is an electromagnetic wave of constant amplitude and frequency. ... Alexanderson Alternator in the Grimeton VLF transmitter. ...

Current usage

Apart from "legacy" telephone installations in Third World countries, carbon microphones are still used today in certain "niche" applications in the developed world. An example is the Shure 104c,^[6] which is still in demand because of its wide compatibility with existing equipment. For the Jamaican reggae band, see Third World (band). ...

The principal advantage carbon microphones have over other types microphone is that they can produce high-level audio signals from very low DC voltages, without needing any form of additional amplification or batteries.

Old-fashioned carbon transmitter telephones are still found in remote locations at the end of very long telephone lines, whose voltage drop would disable an electronic telephone that lacks supplementary power. Most all-electronic telephones need at least 3 volts DC to work, whereas old-fashioned carbon transmitter telephones will continue to work down to a fraction of a volt. Electronic telephones also suffer from the so-called "cliff effect", whereby they abruptly stop working when the line voltage falls below the critical level, while a carbon microphone on the same line would simply have reduced output. In this situation, maintaining the older technology is seen to be more cost-effective than upgrading the line. This article or section does not cite its references or sources. ...

Carbon microphones are also widely used in safety-critical applications such as mining and chemical manufacture, where higher line voltages cannot be used, due to the risk of sparking and consequent explosions. Also, such installations often have a large existing communication infrastructure already based around carbon microphones, and again, it is often considerably cheaper to maintain the existing (if antiquated) structure, than to replace it with new technology.

Carbon-based telephone systems are also extremely resistant to damage from high-voltage transients such as those produced by lightning strikes and electromagnetic pulses of the type generated by nuclear explosions, and so are still maintained as backup communication systems in critical military installations. The term electromagnetic pulse (EMP) has the following meanings: electromagnetic radiation from an explosion (especially a nuclear explosion) or an intensely fluctuating magnetic field caused by Compton-recoil electrons and photoelectrons from photons scattered in the materials of the electronic or explosive device or in a surrounding medium. ...

References

1. ^ Heil, B. The Microphone: A Short Ilustrated History. QST, 90(6), 50
2. ^ ^{a b} IEEE Virtual Museum: Carbon Transmitter. New Brunswick, NJ: IEEE History Center [1]
3. ^ Inventors Hall of Fame, E. Berliner, U.S. Patent 0,463,569  filed June 1877, issued November 1891
4. ^ Douglas Self. Electro-Mechanical amplifiers (Western Electric 65A carbon amplifier in 66B hearing aid).
5. ^ Carbon III amplifier. Comtronicsindustrial.com.
6. ^ Model 104C Guide (PDF). Shure Incorporated.

Bibliography

• Josephson, Matthew, Edison: A Biography, Wiley, 1992, ISBN 0-471-54806-5

External links

Edison's invention of the carbon (graphite) microphone by Frank Dyer

• T A Edison, U.S. Patent 0,474,230  Speaking Telegraph (graphite microphone), filed April 1877, issued May 1892
• T A Edison, U.S. Patent 0,203,016  Improvement in Speaking Telephones (compressed lamp black button insulated from diaphragm), filed March 1878, issued April, 1878
• T A Edison, U.S. Patent 0,222,390  Carbon Telephone (carbon granules microphone), filed Nov 1878, issued Dec 1879
• E. Berliner, U.S. Patent 0,222,652  Improvement in Electrical Contact Telephones (carbon diaphragm with carbon contact pin), filed August 1879, issued December 16, 1879
• A C White, U.S. Patent 0,485,311  Telephone (solid back carbon microphone), filed March 24, 1892, issued November 1, 1892 (Bell engineer)