Key Points About the Thermionic Tube:
- The Thermionic tube goes by many names, to include vacuum tubes, vacuum diodes, thermionic tubes, the Fleming valve, and kenotron.
- While the device has many names, the actual device only has three components. The device heats electrons, gives them away at one end of the tube, and receives them at the other end.
- Basically, the vacuum tube starts electrons moving and provides a direction to move.
Thermionic Tube History
The thermionic tube has gone by many names throughout the timeline of its life. It’s also known as and referred to as a vacuum tube, vacuum diode, Fleming valve, and kenotron. Sir John Ambrose Fleming (hence the name “Fleming valve”) invented the thermionic valve and was granted patent GB 24850 in 1904. While there had been computers prior to 1904, the invention of vacuum diodes allowed for the first generation computers to rely more heavily on electricity than they did mechanics. It would be almost half a century before thermionic tubes would be replaced by other technology (see the integrated circuit created by Robert Noyce and Jack Kilby), and many years after that for those technologies to become available to the common individual.
Thermionic Tube: How It Worked
Despite being a technological marvel at the time of its creation, the vacuum tube is a relatively simple design. If one were to look at a diagram of a traditional vacuum tube it would only consist of three components: an electrode, anode, and cathode. The cathode releases free electrons into the Fleming valve, the anode captures those electrons, and the electrode facilitates that transfer of energy. Basically, the device gets the electrons moving and gives them the proper direction in which to move.
Thermionic Tube: Historical Significance
Because of vacuum tubes, vacuum diodes, kenotrons, whatever someone wants to call them, technology would not be the same without them. The Fleming valve revolutionized how electricity could be transported within machines and technologies. The vacuum diode is so important to the history of technological advancements that without it several electronics would not have been possible: radios, televisions, radar technologies, etc. All of these relied on vacuum tubes to act as resistors and transport the correct amount of electricity to each electrical component they use. Even though vacuum tubes have since been replaced with integrated circuits to reduce the size and increase the lifetime of the parts, the kenotron paved the way for the creation of many technologies throughout the timeline of computers and other electronics.