SU391644A1 - METHOD FOR STABILIZING THE VOLTAGE VOLTAGE OF GAS-DISCHARGE DEVICES - Google Patents

Description

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The invention relates to the technological process of training gas discharge devices: glow discharge thyratrons, zener diodes, indicators, decatrons, etc.

The known method of stabilizing the combustion voltage of gas-discharge devices by passing an electric current involves two stages of training: the treatment of the cathode surface, which consists in spraying the cathode material to a crystal-like metal structure, the processing of the cathode surface, consisting in the destruction and absorption of surface-sorbed gases.

The first stage is short-term, with significant current loads, during which heating of the electrodes is inevitable with the release of gases adsorbed in them. Some of these gases are absorbed by the getter, some are rigid, and some are deposited on the cathode surface to be cleaned after the current has ceased. The gaseous medium formed on the surface of the cathode consists of negative ions, the presence of which increases the burning voltage.

The second stage is long, with small current values close to the working hours. When this occurs, the destruction of the gas medium on the surface of the cathode and the absorption of negative ions. At the end of the second stage of the exercise, the burning voltage is reduced and stabilized.

However, according to a known method of stabilizing the combustion voltage, at the first stage of training, a significant amount of gases are emitted which cannot be absorbed, and the second stage of training, which is necessary to remove these surface-sorbed gases, is also lengthy.

The purpose of the invention is to develop such a method for stabilizing the combustion voltage of gas discharge devices, which would significantly reduce the training time. This is achieved by using trapezoidal current pulses with a vertical leading edge, a duration of 5–7 ms, a pause duration of at least 100 ms, and an amplitude at which the mean bulb temperature of the instrument does not exceed 75 ° C.

The drawing shows a graph illustrating the proposed method.

The vertical leading edge of the current pulse creates the necessary conditions for the discharge to spread over the entire surface of the cathode during one cycle. The amplitude of the current pulse / m is chosen depending on the areas, the cathode, the pressure and the type of gas that is filled with the device.

The combustion voltage of a gas discharge device for a short time occurs when using trapezoidal current pulses with a vertical leading edge, a duration t of 5-7 ms, a pause duration of n not less than 100 ms and amnituy 1, at which the average temperature of the instrument flask “E exceeds 75 ° C. The subject of the invention is a method for stabilizing the combustion voltage of gas discharge devices by passing an electric current, characterized in that, in order to reduce the training time, trapezoidal current pulses with a vertical leading edge, with a duration of 5-7 msec, with intervals of at least 100 msec and amplitude are used. at which the average temperature of the flask of the device does not exceed 75 ° C.

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