RU959601C - Lhree-dimensional acoustio nave delay line - Google Patents

Abstract

A LINE OF DELAY ON VOLUME ACOUSTIC WAVES, comprising a sound duct and piezoelectric transducers located on its surface, characterized in that, in order to increase the suppression of a multi-span signal, the surface of at least one end of the sound duct located on the path of propagation of the acoustic wave is made rough with an average height h of irregularities selected from the condition: 0.05 h / L 0.3, where is the acoustic wavelength.

Description

The invention relates to the field of electronics and can be used in acoustoelectronic signal processing devices.

A known acoustic-wave delay line comprising a sound conduit and piezoelectric transducers is used, in order to suppress multi-span signals, an absorbent coating applied to the transducer is used.

A disadvantage of this delay line is that the absorbent coating on the transducer is an acoustic load for the latter and sharply reduces its effectiveness.

A delay line for volumetric acoustic waves is also known, comprising a sound pipe and piezoelectric transducers located on its surface. The multi-span signal in the delay line is suppressed due to the angle of inclination

with

the end of the sound duct to the direction of propagation of the bulk acoustic wave.

The disadvantage of this delay line is the limited level of supply of the OO laziness of the multi-span signal.

It is an object of the invention to increase the suppression of a multi-span signal.

This is achieved by the fact that the surface of at least one end of the sound duct located on the path of propagation of the acoustic wave in the delay line on body acoustic waves containing a sound duct and piezoceramic transducers located on its surface is made rough with an average roughness height h selected from conditions 0.05 LX-L 0.3, where A is the acoustic wavelength.

In FIG. 1 shows a delay line for acoustic waves; in FIG. 2 - dependence on the suppression of a false signal at one reflection of the acoustic wave from the end of the sound duct, depending on the ratio of the average height of the surface roughness of the end of the sound duct to the length of the acoustic wave / jt (oi f (hAA)) “Delay lines on bulk acoustic waves contain a sound pipe 1, on the surface of which the input 2 and output 3 piezoelectric transducers are located, and the end face t of the sound pipe is made with a rough surface. The delay line on a surround acoustic wave works as follows. The electromagnetic signal is converted by the input transducer 2 into a three-dimensional acoustic wave, which propagates in the sound duct 1, and having reached the end of the sound duct, it is converted by the output transducer 3 into an electromagnetic wave. The presence of a rough surface of the end of the acoustic duct with an average height and irregularities / irregularities selected from condition 0, 3 leads to a decrease in the amplitude of the acoustic wave reflected from this end by 12 dV. As a result, the next pulse, which passed to the output transducer 3 after passing through the sound duct 1 and reflected from the input transducer 2, will be suppressed relative to the first pulse by the amount of absorption in the sound duct material plus the indicated losses due to reflection from the rough surface of the end face 4. For the ratio, 05 the value of the additional attenuation of the three-span signal due to reflection from the end of the sound duct is relatively small (less than 2 dB), and at h / 0.3 they begin to appear, and then, as this ratio grows, the phase distortions of the delayed signal increase sharply. The proposed delay line for / bulk acoustic waves allows you to create acoustic delay lines: microwave delays with small (tenths of a microsecond) delay times with a level of suppression of a multi-span signal sufficient for practical use (more than 20 dB), since the rough surface of at least one end of the sound guide located on the propagation path of the acoustic wave increases the suppression of the false (reflected) signal by up to 12 dB for each reflection. In addition: the implementation of the ends with a rough surface allows you to abandon the time-consuming operation of optical polishing the surfaces of the ends of the sound duct according to the optical standard and thereby reduce the cost of the acoustic delay line of the microwave range.

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