SU1012144A1 - Hot-wire anemometer frequency characteristic determination device - Google Patents

Abstract

A DEVICE FOR DETERMINING THE FREQUENCY CHARACTERISTICS OF A THERMO-ANEMOMETER, containing a sensor connected to a harmonic oscillator bridge, connected via an additional resistor to the sensor, a feedback control amplifier, whose input is connected to the bridge measuring diagonal, and the output is connected to the diagonal of the bridge and the regulating device. so that, with the aim of accuracy, it is equipped with a second additional resistor, and the output of the generator; a harmonic oscillator through the second additional resistor n dklyuchen to resistor bridge adjacent to the sensor, wherein the resistance value of the second resistor additive selected from bootnosheni. where K is the resistance of the second doi h, bavochnogo resistor; resistance of the first to (L of the quick resistor; resistance of the resistor I% MocTd adjacent to the sensor; RU-OT sensor resistance.

Description

ISO

4 4; The invention relates to a measuring technique and can be used to determine the dynamic frequency characteristics of thermoanemometers with string and film sensors. A device is known comprising a sensor included in a resistance measuring bridge, a bridge power supply, a harmonic generator and a recording device p tlj. The drawback of the device is the low accuracy of determining the frequency response of the hot-wire anemometer, due to the complexity of assessing the joint effect of the intrinsic frequency response of the sensor and the characteristics of the feedback control amplifier. The closest to the technical essence of the invention is a device for determining the frequency response of a thermo-anemometer, comprising a sensor, a harmonic oscillator connected to a bridge, connected via an additional resistor to the sensor, a feedback control amplifier, the input of which is connected to the bridge diagonal and the output is with the diagonal of the bridge power supply and the recording equipment of 12 J. The disadvantage of the device is the low accuracy, due to the difficulty of selecting a false sensor with the required, characteristics, the need for additional measurements of dynamic characteristics with a false sensor. The purpose of the invention is to improve the accuracy of determining the dynamic characteristics of the hot-wire anemometer. The goal is achieved by the fact that the device for determining the frequency response of the hot-wire anemometer, containing a sensor connected to the bridge, a generator of harmonic oscillations connected via an additional resistor to the sensor, regulating a feedback amplifier, whose input is connected to the measuring diagonal of the bridge, and the output is with the diagonal of the bridge power supply and recording equipment, is equipped with a second additional resistor, and the output of the harmonic oscillator through the second additional resistor is connected to the bridge resistor adjacent with a sensor. With this, the resistance value of the second additional {eesistor is selected from the ratio,. GhP.o R l. - resistance of the second additional resistor; RQ is the resistance of the first additional resistor, Ts. - resistance of the bridge resistor adjacent to the sensor; sensor resistance. The drawing shows the block diagram of the device. The device contains a measuring bridge 1 with a sensor 2 and resistors 3-5, a regulating feedback amplifier b, a harmonic oscillator 7, additional resistors 8 and 9 and recording equipment 10. The device for determining the frequency response of the thermo-anemometer works as follows. Preliminarily, the sensor 2 is installed in the flow at an arbitrary speed and the output voltage of the hot-wire anemometer is measured with the aid of recording equipment 10. Then, the sensor 2 is connected to the harmonic oscillator 7 through the first additional resistor 8. The resistance value of the first additional resistor 8 is chosen such that the variable component of the output of the thermoaneimeter does not exceed a few percent (no more than 10%) of the average value of the output of the thermoanemometer. Then, through the second additional resistor 9, the resistance value of which is chosen from the ratio R, (., -., Harmonic oscillator 7 is connected to resistor 3 of measuring bridge 1. Change the frequency of the signal, harmonic oscillator at a constant signal amplitude with the help of recording equipment the output signal of the hot-wire anemometer. According to the measurement data, the dynamic characteristics of the hot-wire anemometer are determined. „-. Connection of the generator to the bridge arm, interchangeable with a sensor, and the choice of resistance R L, / Ro r3 correlator 9-1 "NII Rq3. ensures the equality of voltage drops in adjacent arms of the bridge, as a result of which the output of the thermoanemometer output signal is excluded, caused by the voltage drop in the sensor from the sinusoidal current flowing through it. The output signal of the thermoanemmeter will determine only by changing the resistance of the sensor caused by the heating effect of the sinusoidal current. The device will significantly improve the accuracy of determining the frequency response of the thermoanemometer carrying out the experiment, since the definition chas31012144. "

This characteristic is carried out as a result of which the normatives are eliminated in the process of one measuring dimensionality of the experiment, introduced into the coraciation under the same conditions, into an inaccurate measurement result.

Claims (1)

DEVICE FOR DETERMINING THE FREQUENCY CHARACTERISTIC OF THE THERMAL ANEMOMETER, containing a sensor included in the bridge of the harmonic oscillator, connected through an additional resistor to the sensor, a feedback amplifier, the input of which is connected to the measuring 8 'by the agonal of the bridge, and the output - with the diagonal' of the bridge power and control equipment / due to the fact that, in order to improve accuracy, it is equipped with a second additional resistor, and the output of the harmonic oscillator through the second additional resistor is connected to the bridge resistor adjacent to the sensor, while the resistance value of the second additional resistor is selected from Le - the resistance _of the second pre bavochnogo resistor; - resistance of the first additional resistor) .- resistance of the bridge resistor adjacent to the sensor; sensor resistance. SU w 1012144>