The Fleming valve, also called the Fleming oscillation valve, was a vacuum tube diode invented by John Ambrose Fleming and used in the earliest days of radio communication. As the first vacuum tube, the IEEE has described it as "one of the most important developments in the history of electronics", and it is on the List of IEEE Milestones for electrical engineering.
The Fleming valve was the first practical application of the "Edison effect
" (thermionic emission
) discovered in 1883 by Thomas Edison
shortly after his invention of the incandescent light bulb
, that is, the emission of electrons by a lamp's heated filament to a nearby metal plate. Edison was granted a patent for this device as part of an electrical indicator in 1884, but did not hit upon any practical use. Professor Fleming of University College London
consulted for the Edison Electric Light Company
from 1881-1891, and subsequently for the Marconi Wireless Telegraph Company
In 1901 Fleming designed a transmitter for Guglielmo Marconi to attempt transmission of radio waves across the Atlantic from Poldhu, England, to Nova Scotia, Canada. The distance between the two points was about 3,500 kilometres (2,100 miles). Although widely heralded as a great scientific advance, there was also some skepticism about this claim, in part because the signals had only been heard faintly and sporadically. In addition, there was no independent confirmation of the reported reception, and the transmission, which merely consisted of the three dots of the Morse code letter S sent repeatedly, came from a transmitter whose signals were difficult to differentiate from the noise made by atmospheric static discharges. (A detailed technical review of the early transatlantic work appears in John S. Belrose's work of 1995.) The receptions of signals were difficult to detect with a galvanometer. Fleming researched on a way that he could get the received signal to flow in only one direction, its oscillations could be detected with less trouble.
In 1904 Fleming tried an Edison effect bulb for this purpose, and found that it worked well to rectify high frequency oscillations and thus allow detection of the rectified signals by a galvanometer. On November 16, 1904, he applied for a US patent for what he termed an oscillation valve. This patent was subsequently issued as number 803,684 and found immediate utility in the detection of messages sent by Morse code.
The Fleming valve proved to be the start of a technological revolution. After reading Fleming's 1905 paper on his oscillation valve, American engineer Lee DeForest
in 1906 created a three-element vacuum tube (the Audion
) by adding a modulation grid. It could act as an amplifier and oscillator as well as detector. De Forest quickly refined his device into the triode
, which was then central to the creation of long-distance telephone
and radio communications, radars
, and early digital computers. Similarities and differences between the Fleming valve and DeForest's triode caused decades of expensive and disruptive litigation, which were not settled until 1943 when the United States Supreme Court
ruled Fleming's patent invalid.
References and notes
- - Instrument for converting alternating electric currents into continuous currents (Fleming valve patent)Cited by
- , Jan 7, 1910 : Fleming valve improvement by R. A. Weagant
- , Apr 12, 1910 : John Ambrose Fleming patent
- , Mar 10, 1917 : Fleming valve improvement by R. A. Weagant
- , Jan 8, 1918 : Fleming valve improvement by R. A. Weagant
- , Sep 10, 1918 : Fleming valve improvement by R. A. Weagant
- , Dec 31, 1918 : Fleming valve improvement by R. A. Weagant
- , Jun 10, 1919 : Fleming valve circuit improvement by R. A. Weagant
- , May 4, 1920 : Fleming valve improvement by R. A. Weagant
- , Jul 27, 1920 : Inverter converter by L. W. Chubb
- , May 31, 1921 : Fleming valve improvement by R. A. Weagant
- , Jun 15, 1926 : Inverter converter by L. W. Chubb
- , May 1, 1928 : Fleming valve circuit improvement by P. E. Edelman
- , Jun 7, 1949 : Electrode improvement by H. L. Ratchford