SU1195252A1 - Gas flow rate indicator - Google Patents

Abstract

GAS FLOW RATE SIGNALIZER, containing measuring and compensating zener diodes installed in the flow, current generator, tuning resistor, comparator, output amplifier, the output of which is the output of the device, with the current generator through the settings C C /., .. - and a resistor connected to a compensatory zener diode, characterized in that, in order to increase the measurement accuracy, a reference voltage source, an operational amplifier, a field trans, a resistor and a resistor, and a non-inverting input The operational amplifier is connected to the generator output, the inverting input is connected to the source of the field-effect transistor and to the measuring zener diode, the output of the operational amplifier is connected to the gate of the field-effect transistor, the drain of the field-effect transistor is connected to the resistor, and the inputs of the comparator are connected to the relay and the source of the reference transistor. voltages, the second terminals of the current source and both zener diodes are combined on a common wire. Ki

Description

2S

11 The invention relates to a control measurement technique and can be used to control a given gas flow rate. The purpose of the invention is to improve the accuracy of measuring the gas flow velocity. ) sensor stabilitron. D1, heat-generating (measuring) Zener diode D2, tuning resistor R1, current measuring resistor R2, field-effect transistor T1. The non-inverting input of the operational amplifier 3 is energized from the compensating Zener diode D1 and the tuning resistor R1. Operational amplifier 3 supports the same voltage on the Zener diode D2, the current through it changes. In this case, the negative feedback is removed from the Zener diode D2. When changing the velocity of the gas stream, which surrounds sensor D2, its thermal resistance and, accordingly, temperature changes. This leads to a change in the stabilization voltage D2 and a change in the current through it in such a way that the heat output to be compensated for temperature changes. The required amount of current through the heat snapping sensor is determined by the conductance of the field effect transistor T1, which in turn is controlled by the operational amplifier 3. A voltage proportional to the current through the tegslot zener diode is connected to the current measuring resistor R2.

Claims (1)

A GAS FLOW SPEED SIGNALIZER comprising a measuring and compensation zener diodes installed in the flow, a current generator, a tuning resistor, a comparator, an output amplifier, the output of which is the output of the device, the current generator being connected through a tuning resistor to a compensation zener diode, characterized in that, for the purpose of to increase the accuracy of measurement, a source of spurious voltage, an operational amplifier, a field-effect transistor and a resistor are introduced into it, and the non-inverting input of the operational amplifier The amplifier is connected to the output of the current generator, the inverting input is to the source of the field transistor and to the measuring zener diode, the output of the operational amplifier is connected to the gate of the field effect transistor, the drain of the field effect transistor is connected to the resistor, and the comparator inputs are connected to the resistor and the reference voltage source, the second conclusions a current source and both zener diodes are combined on a common wire. > 1195