SU434289A1 - HEAT-ELECTRIC VACUUMETER. • 4J! ::; v * v -; - 't - =' -; i'rf ”a • v ^ - 'i ^ i C? B;: ^ s: .r! IJ3 - Google Patents

Description

one

The invention relates to a measurement technique, in particular to vacuum gauges, and can be used in the measurement of low gas pressures.

The known vacuum gauge, containing a thermoelectric pressure gauge converter, operating in constant temperature mode of the filament, measuring bridge, amplifier-generator and recording device, does not have a linear output signal carrying information about the electric power dissipated by the metal filament, since the bridge is supplied with a variable voltage fixed frequencies.

The purpose of the invention is to obtain a linear output signal.

This goal is achieved by the fact that the vacuum gauge is equipped with a controlled frequency generator, a pulse shaper, a selectable peak detector and a delay block, while the generator input through the peak detector is connected to the amplifier, and its output is connected to the recorder, through the pulse shaper to the bridge diagonal and through the delay unit - to the value of controlling the detector of the detector.

The invention is illustrated in the drawing, which is a schematic block diagram of a vacuum gauge.

The vacuum gauge contains a sensor 1, included in a bridge circuit (bridge 2), amplifier 3, a selectable detector 4, a generator of controlled frequency, a driver 6 pulses in duration and amplitude, a delay unit 7 and a recording device 8.

The metal filament of sensor 1 is heated by pulses of constant duration and amplitude to a temperature, the resistance of which satisfies the equation of a balanced bridge 2.

Under the influence of the rectangular impulse voltage on the sensor 1, the power is dissipated:

,

where L is a constant coefficient;

t is the pulse duration;

and the pulse amplitude;

F is the pulse frequency. The power P dissipated by the metal filament of the sensor 1 is directly proportional to the pulse frequency G n determined by the generator 5 of the controlled frequency, to the input of which the amplified and detected unbalance voltage of bridge 2 is applied. The change in gas pressure or its thermal conductivity and, accordingly, , temperature sensor 1. Under the action of the voltage unbalance of the bridge 2, the generator 5 changes its

frequency so as to eliminate the imbalance that has occurred, i.e., that the temperature of the sensor 1 string always remains constant.

The selectable peak detector 4 is opened by the generator 5 through the delay unit 7 only during the existence of the power pulse of the bridge 2.

The recording device 8 (digital frequency meter) records the frequency at the output of the generator 5, which is proportional to the measured pressure.

Subject invention

Thermoelectric vacuum gauge containing thermoelectric gauge

a converter included in the measuring bridge arm, an amplifier connected to the bridge measuring diagonal, and a recorder characterized in that, in order to obtain a linear output signal, the vacuum gauge is equipped with a controlled frequency generator, a pulse driver, a selectable peak detector and a delay unit, the generator input through a nick detector is connected to the amplifier, and its output is connected to the recorder, through the pulse shaper to the diagonal of the bridge power and through the delay unit to the control circuit and a peak detector.

f t