SU1113882A1 - Delay line based on surface acoustic waves - Google Patents

Abstract

A DELAY LINE ON THE SUPPORTING RATIO ACOUSTIC WAVES, containing a single-crystal sound conductor, input and output electroacoustic transducers of surface acoustic waves, characterized in that, in order to reduce amplitude and phase distortions, the sound conductor is made of a multi-component semiconductor software and an application, which has an enclosure containing an application that reduces the amplitude and phase distortion. the planes of the boundaries of which are normal the surfaces of the sound duct, and the input and output electroacoustic transducers Surface acoustic waves are located on opposite sides of the bisectrix of a plane right angle formed by the intersection of the planes of the boundaries of mutually orthogonal plane-parallel domains with the surface and the sound duct. N9

Description

The invention relates to radio electronics, communications, radar, in particular to devices for processing signals on surface acoustic waves (SAW).

Surfactant delay lines are known, containing a chimney, input and output interdigital transducers (IDT), as well as two systems of orthogonal topological reflective elements, implemented in the form of regular parallel grooves arranged in such a way that the path of propagation of the acoustic beam from the input transducer to OUTPUT has a V-shaped lj.

A disadvantage of known surfactant lines on surfactants is the complexity of their design, due to the fact that it is necessary to ensure high accuracy of geometrical dimensions and location of a large number of reflective grooves: their parallelism is width, depth, mutual orthogonality between the grooves of both systems, etc.

Closest to the proposed technical entity is the delay of the SAW delay, containing a mono-crystalline sound duct, input and output electro-acoustic SAW converters arranged on a single-crystal sound duct in such a way that their acoustic flows are parallel, and two systems of orthogonal topological reflective elements made in the form metal strips forming a chevron 21 type configuration.

A disadvantage of the known surfactant delay line is the strong amplitude-phase distortion of the signal being processed due to the presence of topological reflective elements on the surface of the acoustic duct, which leads to dispersive distortion of the surfactant.

The purpose of the invention is to reduce amplitude and phase distortion of the signal.

The goal is achieved by the fact that in the delay line on a surfactant containing a single-crystal acoustic conductor, an input and output electroacoustic transducers PLV, a sound conductor release (from a poly-dominant ferroelastic material containing two systems of mutually orthogonal plane-parallel domains, the boundaries of which are normal to the surface of the acoustic conductor, and the input and output electroacoustic distributions The surfactants are located on different sides of the bisector of the flat right angle formed by the intersection of the plane. knock vzimoortogonalnyh boundaries with plane-parallel domains surface acoustic conductor.

The drawing shows schematically the proposed delay line on the surfactant.

The line contains a suction line 1, an input 2 and an output 3 electroacoustic SAW transducers, mutually orthogonal systems 4 and 5 of plane-parallel domains 6 which are oriented relative to the surface of the suction line 1 so that the plane 7 of the domain boundaries are normal to the working surface of the sump duct, and the transducers 2 and 3 delay lines on the SAW located on the duct 1 on opposite sides of the bisectrix of a flat right angle formed by the intersection of the planes of the boundaries of the domains 6 of mutually orthogonal systems 4 and 5 with erhnostyu 1 twin turbo.

Line delay works as follows.

The electrical signal at the electrodes of the input transducer 2 initiates surfactant in the sound duct 1. Acoustic flow I from input transducer 3 falls on a system of 4 flat-tip domains 6 at an angle of about 45 °. The elastic properties of the sound duct material 1 in the specified direction are different in neighboring domains, as a result of which part of the surfactant energy is reflected towards the system 5 domains, and then, having reflected once again from system 5, it propagates towards the output of the IDT 3. The direction of propagation (; at the same time, it turns out to be parallel to the bisector of the plane right angle formed by the intersection of the planes of the boundaries of the mutually orthogonal plane-parallel domains with the surface of the acoustic duct. The ferroelastic nature of the domain truktury allows to provide strict boundaries 7 domenoi parallelism within a single system, and strict boundaries ortogonatnost po311138824

6 systems 4 and 5 are not defined in relation to both input 2 and output to each other 3 IDTs, as well as number and location. As a result of material anisotropy of individual flat-plane acoustic duct 1, in some cases of 6 domains each inter-orthogonal can observe the flow deviation of system D and 5. i energy from parallel to bisector. In gadolinium nolybdate, Z-medium. Due to the exclusion of the influence of the angle of deviation of the energy flux, the composition of the topological reflective elements is about 1.8 °. The output transforms of the proposed delay line. The converter 3 performs the opposite and provides less amplitude and converts the SAW into electric phase signal distortions by a comparative signal, while the same characteristics of the delayed assignment line are frequency and timing with known devices.

Claims (1)

DELAY LINE ON SURFACE NOSTAL ACOUSTIC WAVES, containing a single-crystal sound guide, input and output electroacoustic transducers of a surface sound guide of acoustic waves, characterized in that, in order to reduce the amplitude and phase distortions, the sound guide is made of a polydomain ferroelastic material containing two mutually plane aortic systems the plane of the boundaries of which are normal to the surface of the sound duct, and the input and output electro-acoustic transformations bodies of surface acoustic waves are located on opposite sides of the bisector of a plane right angle formed by the intersection of the planes of the boundaries of mutually orthogonal plane-parallel domains with the surface j Yu 00 00 Yu