This article was automatically translated from the original Turkish version.
A vacuum tube, also known as an electron tube, is an electronic circuit component that directs, amplifies, and switches electrical signals using electrodes housed within a glass, metal, or ceramic structure evacuated of air. These tubes enable precise control of electrical signals by providing an environment in which electrons can move freely. Throughout the 20th century, vacuum tubes played a vital role in the development of modern electronics, particularly paving the way for technologies such as radio, television, computers, and radar.
The first vacuum tube was the Fleming diode, developed by John Ambrose Fleming in 1904. This was followed by Lee De Forest’s invention of the triode in 1906. Until the 1940s, they served as essential components in computers, radios, televisions, and radar systems. Although their widespread use declined after the discovery of the transistor in 1947, they continue to be used in specialized applications.
The operation of a vacuum tube is based on a physical process called thermionic emission. When heated, the electrode known as the cathode releases high-energy electrons. These electrons move freely through the vacuum and are attracted toward the positively charged anode (plate). One or more grid electrodes placed between the cathode and anode control this electron flow.
The maximum current density emitted via thermionic emission is expressed by the following equation:
Where:
Since electric current flows in only one direction in vacuum tubes, this property is exploited for rectification, switching, modulation, and amplification.
Vacuum tubes are classified into various types based on the number of electrodes and their functions:
Some vacuum tubes are specially designed for specific applications:
Throughout the 20th century, vacuum tubes were central to the following fields:
Today, vacuum tubes continue to be used in narrow but specialized fields such as high-power microwave systems, radio frequency (RF) technologies, nuclear research, and audiophile audio systems.
Accessed: http://www.tubebooks.org/Books/reich.pdf.
Reich, Herbert. Theory and Applications of Electron Tubes. New York: McGraw-Hill Book Company, 1944.
Rider, John F. *Inside the Vacuum Tube*. New York: John F. Rider Publisher, 1943. http://www.tubebooks.org/Books/rider_inside.pdf.
History
Structure and Operating Principle
Richardson–Dushman Equation
Main Components
Types of Tubes
Special Vacuum Tubes
Applications