SU441614A1 - Method of measuring gas or vapor pressure in gas discharge devices - Google Patents

Description

I

The invention relates to a measuring technique and can be used to measure the pressure of a gas or vapor in gas discharge devices.

The known method for measuring the pressure of a gas or a gas in gas discharge devices is based on the application of a pulse voltage with an amplitude exceeding the static discharge ignition voltage and a duration not less than the plasma deionization time. The pressure is determined by the plasma decay time.

However, the known method makes it possible to measure a relatively narrow range of pressures, especially light gases (hydrogen, helium), while the measurement accuracy in cold cathode meters is influenced by the static delay time.

The purpose of the invention is to increase the measurement accuracy and expand the range of measured pressures.

The goal is achieved by the fact that according to the proposed method, a constant voltage exceeding the static ignition voltage and a pulse voltage are applied to the electrodes of the gas discharge device. The duration of the impulses must exceed the time delay and the formation of the discharge. The pressure of steam or gas is judged by the time of the existence of a low-voltage discharge.

2

When a direct voltage is applied to the electrodes of the gas discharge device, a low-current auxiliary discharge is ignited in the gap, the amount of the current of which is limited by a resistance within a few milliamperes. A burning voltage is established between the electrodes.

Impulses of positive polarity, in amplitude greater than the burning voltage, are fed through a diode to the anode. The duration of the pulse is greater than the delay and discharge time. During the pulse, a discharge with a higher charge concentration is formed in the gap. At the end of the pulse, plasma decay begins (low voltage), the voltage across the electrode is close to zero. In the process of plasma decay, the concentration of charged particles decreases, and the conditions existing before the arrival of the impulse are restored in the gap.

The lifetime of the low-voltage discharge stage (plasma decay) Tz is proportional to the pressure P (density) of a gas or vapor.

By measuring the duration of the low-voltage stage and using the calibration curve Tf f (P), it is possible to determine the density of the gas ORE of steam in the discharge gap of any low-pressure discharge device. 3 P r e l}. The third and third methods of measuring the pressure of a gas or a gas in gas discharge devices by applying a voltage to the electrodes, characterized in 5 in order to increase the measurement accuracy and expand the range of measured pressures, to the electrodes a constant 4 voltage exceeding the static ignition voltage and a pulse of the same polarity as the constant voltage, the pulse duration not less than the delay and discharge time and the time of the low voltage discharge occurring ha orazr bottom of the device.