SU896567A1 - Meter of determining amplitude-frequency characteristics of piezoelectric transducers - Google Patents

Description

The invention relates to ultrasonic non-destructive testing and can be used to study the amplitude-frequency characteristics of ultrasonic transducers

A known ultrasonic device for determining the type of defect by the ultrasonic spectral method, comprising a probe pulse generator, a serially connected broadband amplifier, a time selector, a detector, an integrator and a spectrum analyzer, a select pulse generator connected to the second input of the temporary selector, and a synchronizer connected to the probe pulse generator and a pulse generator C11

The disadvantage of this device is the low accuracy of measuring the amplitude-frequency characteristics of ultrasonic transducers.

The closest to the invention in technical essence and the achieved result is a meter of amplitude-frequency characteristics of piezoelectric transducers, containing a synchronizer, series-connected amplifier, time selector - ⁵ torr, a peak detector, indicator and recorder, oscillating frequency generator, the output of which is connected to the second input of the indicator , a selection pulse generator, the input of which is connected to the output ^{1 of the} synchronizer, and the output to the second input of the temporary selector [2].

Its drawback is the low accuracy of measurement of the amplitude-frequency characteristics of the ultrasonic transformation ers ⁵ inconstancy due to the amplitude of the probe pulse.

The purpose of the invention is to improve the accuracy of measurement "_ This goal is achieved by the fact that

О the meter of the amplitude-frequency characteristics of piezoelectric transducers is equipped with a series-connected modulator, the input of which is connected—

Nen with synchronizer output, power amplifier, key, input converter and automatic gain control unit, the output of which is connected to the second input of the power amplifier, J delay stage, the input of which is connected to the synchronizer, and the output - to the second key input, the second output of which is connected to amplifier input.

The drawing shows a block diagram of a meter measuring the amplitude-frequency characteristics of piezoelectric transducers.

The meter contains serially connected synchronizer 1, modulator 15 2, power amplifier 3, key 4, input converter 5, automatic gain control (AGC) unit 6, the output of which is connected to the second input of power amplifier 3, connected in series with amplifier 7, the input of which is connected with the output of the key 4, a temporary selector 8, a peak detector 9, an indicator 10 and a recorder 11, an oscillating frequency generator 12, one ed output of which is connected to a modulator 2, the other output is with an indicator U, a delay cascade 13, input is connected to the synchronizer 1, and the output - to the second input key 4, and the generator 14 ed selection pulses, whose input is connected to the synchronizer, the output from the second input selector 8 temporarily, and analyzed piezoelectric transducer 15 connected to the output _3J ca 4 key.

The meter works as follows.

A continuous sinusoidal signal with a frequency slowly varying linearly in a given range comes from oscillating frequency generator 12 to modulator 2, where probing radio pulses of the required duration with a variable filling frequency are generated. The received radio pulses are amplified by a power amplifier 3 and through a key 4 are fed to the studied piezoelectric transducer 15. After a certain period of time, the reflected pulses of the piezoelectric transducer ⁵⁰ pass through amplifier 7 to a time selector 8, where the first reflected pulses are selected and amplified, which then with the help of peak detector 9, I convert — 55 shed into a DC voltage proportional to the amplitude of the reflected ones.

pulses, which, in turn, are observed on the indicator 10 and recorded using the recorder 11.

The constancy of the amplitude of the probe radio pulses in the swing range at the input of the piezoelectric transducer 15 is provided by the AGC block 6 with the input transducer 5.

The gate generator 14 generates pulses for controlling the time selector 8, the delay stage Ϊ 3 serves to control the key 4.

Thus, the invention improves the accuracy of measuring the amplitude-frequency characteristics of piezoelectric transducers.

Claims (2)

Yen with a synchronizer output, a power amplifier, a key, an input converter and an automatic gain control unit whose output is connected to the second input of the power amplifier, a delay cascade whose input is connected to the synchronizer, and the output to the second input of the key with amplifier input. The drawing shows a block diagram of the meter amplitude-frequency characteristics of the piezoelectric transducers. The meter contains serially connected synchronizer I, modulator 2, power amplifier 3, switch 4, input converter 5, automatic gain control unit 6 (AGC), the output of which is connected to the second input of power amplifier 3 connected in series by amplifier 7, whose input is connected to key 4, time selector 8, peak detector 9, indicator Yu and recorder I, oscillating frequency generator 12, one output of which is connected to modulator 2, another output with indicator Yu, a delay 13 stage, input The op is connected to synchronizer 1, and the output is connected to the second input of key 4, and a selection generator 14, the vhbd of which is connected to the synchronizer, an output to the second input of the time selector 8, and the piezoelectric transducer 15 under study is connected to the output of the key 4. The meter operates as follows in the image. A continuous sinusoidal signal with a frequency slowly varying linearly in a predetermined range is supplied from the oscillating frequency generator 12 to the modulator 2, where sounding pulses of the required duration are produced with a variable filling frequency. The received radio pulses are amplified by the power amplifier 3 and through the key 4 are transmitted to the piezoelectric transducer under study 15. After a certain time interval, the reflected pulses of the piezoelectric transducer are fed through the amplifier 7 to the time selector 8, where the first reflected pulses are selected and amplified, using a peak detector 9 are generated into a constant TOI voltage proportional to the amplitude of the reflected pulses, which, in turn, is observed on the indicator Yu is recorded using the recorder 11. The amplitude of the probing radio pulses in the swing range at the input of the piezoelectric transducer 15 is provided by block 6 AGC with the input transducer 5. The strobe generator 14 produces pulses to control the time selector 8, the delay stage 13 serves to control the key 4 Thus, the invention permits; to increase the accuracy of measuring the amplitude-frequency characteristics of piezoelectric transducers. The invention The measuring instrument of amplitude-frequency characteristics of piezoelectric transducers containing a synchronizer, an amplifier connected in series, a time selector, a peak detector, an indicator and a recorder, a oscillating frequency generator, the output of which is connected to the second input of the indicator, a selection pulse generator, the input of which is connected to the synchronizer output and the output of the second input of the time selector, characterized in that, in order to increase the measurement accuracy, it is equipped with a series of Modulators whose input is connected to the synchronizer output, power amplifier, key, input converter and automatic gain control unit, the output of which is connected to the second input of the power amplifier, a delay stage whose input is connected to the synchronizer, and the output to the second input of the second key the output of which is connected to the input of the amplifier. Sources of information, ghmintye into account in the examination 1.Catent US No. 3662589, cl. 73-67 / 8, 1972. 2. Ermolov I.P. and others. Ultrasonic spectral method of defining the nature of defects. M., Mashchinostroenie, 1979, p. 2S (prototype). about