SU1278726A1 - Indicator of velocity of gas flow - Google Patents

Abstract

The invention relates to instrumentation engineering and allows for improved control accuracy. When the velocity of the gas flow changing over to the Zener diode 8 is changed, its thermal resistance and temperature change, which leads to a change in the stabilization voltage of Zener diode 8 and a change in the current through it. The voltage drop across the dynamic resistance of the Zener diode 8 will not affect the amount of current through the Zener diode 8, it is automatically subtracted from the total voltage on the Zener diode 8 by the circuit assembled by the operational amplifier and resistors 12, 13 and 14. 1 Il. Additional to the main author. St. № 1195252. (L to | 00 KJ 1C about 12 N) 8

Description

The invention relates to measuring technique and can be used to automatically control a given gas flow rate.

The aim of the invention is to improve the accuracy of the control.

The drawing shows a block diagram of the gas flow velocity detector.

The device contains a current generator 1, a comparator 2, an operational amplifier 3, a source 4 of the reference voltage, an output amplifier 5, an operational amplifier 6, a thermocompensating (compensating) sensor / stabilizer 7., a heat-generating (measuring) sensor-Zener diode 8, a tuning resistor 9, a current meter the driver R. resistor 10, field-effect transistor II, resistor 12, equal to the dynamic resistance of the Zener diode 8, and equal in value to the resistors 13 and 14,

The device works as follows.

On the resistor 12, papeic voltages are allocated, equal to the voltage drop on the dynamic resistance of the stabilizer 8,. The operational amplifier 6 with equal resistors 13 and 14 is a single-gain amplifier-inverter. At the output of this amplifier, a stabilization voltage is formed from Zener diode 8, reduced by the magnitude of the voltage drop across the dynamic resistance of Zener diode 8, This voltage is the feedback voltage.

supplied to the inverting input of the operational amplifier 3. When the velocity of the gas flow around the Zener diode 8 changes, its thermal resistance and, accordingly, temperature will change. This will lead to a change in the stabilization voltage of the stabilizer 8 and a change in the current through it. In this case, the voltage drop across the dynamic resistance will not affect the magnitude of the current through Zener diode 8II, since it is automatically subtracted from the common voltage on Zener diode 8 by a circuit assembled at the operational amplifier 6 and the resistors 12, 13 and 14,

Claims (1)

Invention Formula Signaling device of gas flow velocity by the author. No. 1195252, characterized in that, s. In order to improve the control accuracy, the third, fourth and fifth resistors and an additional operational amplifier, the output of which is connected to the inverting input of the operational amplifier, are inserted, through the third resistor connected to the inverting input of the additional operational amplifier, connected in series to the third and fourth resistors to the source of the field-effect transistor t through the third, fourth and fifth resistors connected in series to the non-inverting input of the additional operational amplifier and the cathode of the measuring zener diode.