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I recently ran into an interesting device called a thyratron. I have a basic understanding of thyratrons as gas filled vacuum tubes. I understand that they can switch large amounts of currents and voltages over short time spans very accurately. However, I come across a lot of thyratrons that have more than 4 pins (sometimes 6 or 7.) When I look at the datasheet (such as this one) The pins labeling seems quite different from their scr couterparts.

I am trying to understand how these pins interact--so if the device were a black box, what relationships would I observe between current and voltages between the different pins?

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  • \$\begingroup\$ Is that a 25 MEGAAMPERE switch or did they flip the casing on 'milli'... \$\endgroup\$ Jul 3, 2012 at 17:54

1 Answer 1

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Pins (for 6D4)

1 - grid (the control element)
3, 4 - heater (connect 6.3V AC or DC there)
5 - cathode
7 - plate (anode)

Connect your main voltage between the plate (+) and cathode (-) and keep the grid at a negative voltage, when you want the tube to start conducting, make the grid voltage less negative (the datasheet says that the tube starts conducting when the grid is at -6V - -26V depending on the plate voltage).

Thyratrons work by initiating a gas discharge in a tube. They can have hot (as is the case with 6D4) or cold cathodes. Cold cathode tubes are less sensitive and require higher plate voltages (almost enough to initiate the discharge in the gas, then you connect a positive votage to the grid and the discharge starts). Hot cathode tubes require heater power but are more sensitive and can be used with lower voltages (some tubes can be turned on by about 15V).

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