| Inductive Output Tube |
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IOTs have been described as a cross between a klystron and a Triode , hence One Manufacturer 's trade name for them, Klystrode. They have a Cathode with a Control Grid 0.1 Mm in front of it like a triode. They then use high voltage DC and a Magnetic Lens to focus a sharp high energy electron beam through a small drift tube like a klystron. This drift tube prevents backflow of radiation and limits the IOT to frequencies below about 1300 MHz . Heat radiation from the cathode heats the grid; as a result, Low-work-function cathode material evaporates and condenses on the grid. This eventually leads to a short between cathode and grid, as the material accreting on the grid narrows the gap between it and the cathode. The emissive cathode material on the grid may also cause a negative grid current (electrons sent from the grid to the cathode) that may cause problems to the grid power supply if getting too high (causing the grid (bias) voltage to change). Todays IOTs are equipped with coated cathodes that work at very low operation temperatures having a very low evaporation rate thus avoiding this effect. IOTs, like most linear beam tubes having external tuning cavities to achieve bandwidth, are equipped with arc detectors located in the output cavities, which trigger a Crowbar circuit based on a hydrogen Thyratron in the high-voltage supply. Latest versions of IOTs achieve even higher efficiencies (60%-70%) through the use of a Multistage Depressed Collector (MSDC) (one manufacturer's version is called Constant Efficiency Amplifier (CEA) or another manufacturer's version ESCIOT (Energy Saving Collector IOT)). The design difficulties of an MSDC on IOTs have been overcome by the use of transformer oil as a combined cooling and insulation media to avoid arcing and erosion between the collector stages and to provide maintenance free cooling operation for the life of the tube. Earlier MSDC versions had to be air cooled (limited power) or used de-inonized water that had to be filtered, regularly exchanged and provided no freezing and corrosion protection. SEE ALSO EXTERNAL LINKS
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