SU847100A1 - Vacuum meter - Google Patents

Description

(54) VACUUMMETER

one

This invention relates to a measurement technique, namely, to thermal vacuum gauges.

Thermoelectric vacuum gauges are known that contain a measuring resistive bridge with a thermoelectric converter that operates in a constant temperature mode, the resistive bridge being in balanced mode I.

The disadvantage of these gauges is the low measurement accuracy.

The closest in technical essence and the achieved effect is a vacuum gauge containing a thermoelectric transducer connected through a resistor to the output of a power amplifier and connected to a shoulder of a resistive bridge, the measuring diagonal of which is connected to a differential amplifier whose output is connected through a demodulator to the input of a power amplifier, pulse generator, the output of which is connected to the control input of the demodulator, and the recording device connected to the output of the power amplifier 2.

The disadvantage of this vacuum gauge is the low accuracy of measuring high pressures due to the insufficient voltage supply of the resistive bridge.

Claims (2)

The purpose of the invention is to increase accuracy. The goal is achieved by the fact that a vacuum gauge contains a thermoelectric transducer connected through a resistor to the output of a power amplifier and connected to a shoulder of a resistive bridge whose measuring diagonal is connected to a differential amplifier whose output is connected through a demodulator to the input of a power amplifier, a pulse generator, the output of which is connected to the control input of the demodulator, and the registering device connected to the output of the power amplifier, a two-input "OR and key," Rich inputs of an "OR are respectively connected to the output of the pulse generator and the exit key, control key and informative vho20 rows are respectively connected to the outputs of the pulse generator and power amplifier, and an output circuit" OR connected to the supply diagonal of the resistance bridge. The drawing shows a block diagram of a vacuum gauge. The vacuum meter contains a resistive bridge 1, one of the arms of which includes a thermoelectric converter 2, a generator of 3 rectangular pulses, a differential voltage amplifier 4, a demodulator 5 consisting of a switch 6 and a storage capacitor 7, a power amplifier 8, a resistor 9, a switch 10, a two-input circuit “OR 11 and a recording device 12. The vacuum meter operates as follows. In the case when the output voltage of the power amplifier 8 is less than the amplitude of the pulse generator 3, the voltage to the diagonal of the power supply of the resistive bridge 1 is supplied through the diode of the TSI circuit. The parameters of the pulse sequence are chosen based on the minimum possible power of the yarn of the converter 2, i.e., based on the minimum measured pressure, therefore the amplitude of the pulses from the generator 3 is insufficient to obtain the required accuracy in measuring high pressures. When the output voltage of the power amplifier 8 is greater than the amplitude of the pulses of the generator 3, the OR OR diode opens and the output voltage of the amplifier 8 of the power after converting it to a rectangular key 10 enters the diagonal supply of the bridge 1. At the same time increases, which leads to an increase in measurement accuracy. The unbalance voltage of the bridge amplified by amplifier 4 goes to demodulator 5, the key 6 of which, by a signal from generator 3, opens and connects the capacitor 7 to the output of the amplifier 4. Go to the amplitude of the pulse while the key 6 is open, the capacitor 7 is in a pause between pulses memorizes this value before the next pulse arrives from generator 3. Constant voltage from capacitor 7 after power amplifier 8 goes through resistor 9 to thermoelectric converter 2, changing its thread resistance so that bridge 1 on walked in balanced mode. When the pressure changes, the degree of cooling of the thread changes, and consequently, the energy supplied to it is sufficient to maintain a constant resistance of the thread, i.e. the output voltage of the power amplifier 8 serves as a measure of pressure. The vacuum gauge is more accurate than the known ones, since it excludes an error due to insufficient voltage supply of the bridge when measuring high pressures. The invention The vacuum gauge contains a thermoelectric converter connected through a resistor to the output of a power amplifier and included in the resistive arm. a bridge whose measuring diagonal is connected to a differential amplifier whose output is connected via a demodulator to an input of a power amplifier, a pulse generator whose output is connected to a control input of a demodulator, and a recording device connected to the output of a power amplifier, characterized in that whole precision improvements, a two-input OR circuit and a key are entered, the inputs of the OR circuit are connected respectively to the output of the pulse generator and the output of the key, controlling and informative inputs of the key connected to the pulse generator and power amplifier, respectively, and the output of the OR circuit is connected to the diagonal of the power supply of the resistive bridge. Sources of information taken into account during the examination 1. R. Karpov and N. R. Karpov, Electro-Radio Measurement. M., “Higher School, 1978 p. 208. 2. Karpov R. G. And Karpov N. R., Electro-Radio Measurement. M., “Higher School, 1978, p. 210-211, 215-218 (prototype).