SU1048567A1 - Surface acoustic wave changeable delay line - Google Patents

Abstract

1. REJUVABLE LINE. SURFACES ON SURFACE ACOUSTIC WAVES, containing sources of biasing constant and alternating magnetic fields and located in the zone of their operation, the acoustic conductor with input and output converters located on it, which consist of a system of magnetostrictively striped strip artifacts, and that, in order to expand the limits of adjustment of the controlled parameter, the width of the strip electrodes in the direction of propagation of the surface acoustic wave is made varying with According to the law of change of the regulated Parameter. 2. Delay lines according to claim 1, characterized in that the period of arrangement of the strip electrodes is constant, while the input and output converters are completely symmetrical with each other. i 3. The delay lines according to claim 1, about t, which means that the period (L of the location of the strip electrodes varies directly in proportion to their width, while the input and output converters are asymmetrical and one relative to the other.

Description

CX) SP O5

f The invention relates to radioelectronics and can be used in acoustoelectronic devices with varying delay times or frequencies. Lime electronically tunable delay lines on surface acoustic waves (SAW), containing a piezoelectric sound conduit and counter-to-pin converters located on its surface. A change in the delay time in such lines can be provided, for example, by selectively connecting output converters located at different distances from the input O. The disadvantage of such delay lines is low signal conversion efficiency. Also known is a tunable delay line on the surfactant, containing sources of bias constant and alternating magnetic fields and a sound conduit placed in the bottom of their action with input and output converters located on it consisting of a system of magnetostrictive strip electrodes 2. The disadvantage of this device is the small amount of possible adjustment of the delay time or frequency. The aim of the invention is to expand the limits of the restructuring of the adjustable parameter of the delay line. The goal is achieved by the fact that in a tunable delay line on surfactant containing sources of bias constant and alternating magnetic fields and located in the zone of their operation, the sump with the input and output transducers located on it, consisting of a system of magnetostrictive strip electrodes, a width of strip electrodes in the direction of propagation, the LAV is made varying in accordance with the law of change of the regulated parameter. In the delay line, the period of the location of the strip electrodes can be constant, while the input and output transducers are made symmetrically relative to each other. The period of arrangement of the strip electrodes in the delay line can vary directly in proportion to their width 7, with the input and output converters being asymmetric relative to each other. FIG. 1 shows a sump with strip electrodes included in the device for varying the delay time; Fig. 2 shows a sump with strip electrodes, which are part of a device that provides a frequency change (sources of magnetic fields are not shown). The tunable delay line contains a chimney 1 (a non-piezo-active substrate) and two transducers 2 and 3 located at the ends of the chute lines made of a magnetostrictive material. The transducers are a system of magnetostriction strip electrodes 4 that are rigidly connected with a sound pipe, the width a and period d of which along the direction of propagation of the surfactant is specified by an adjustable parameter and the law of its change. Transducers 2 and 3 are placed in an offset constant magnetic field, and the input transducer 2, in addition, into an alternating magnetic field created by the input signal. A smooth or discrete adjustment of the adjustable parameter of the tunable delay line provides-,. with a change in the bias magnetic field. Its principle of operation is based on the fact that each width of a magnetostrictive strip electrode corresponds to a certain bias field, equal to the anisotropy field of the electrode, at which the maximum of the direct and inverse conversion of electromagnetic energy into surfactant energy takes place. This field is determined by the material of the electrodes, their thickness h and width a according to the formula Hk (a), where H (a) is the anisotropy field of the electrode of width a, H to the anisotropy field at, Mg is the saturation magnetization of the material. Thus, when changing the bias field, only those electrodes for which it is equal to their anisotropy field (a) effectively convert energy. When the device operates in the time domain, i.e. as a delay line itself, the delay time is adjusted. At the same time, the period of electrodes 4 is constant along evukoprovod 1, and their width varies in accordance with the law of change of the delay time (Fig. 1). The electrode's iris can change, for example, stepwise when their width is constant in each interval, continuously. linear or non-linear. In the first case, the delay line can be represented by two delay lines with electrodes of width sti (k and delay times tl, / VfiH 12 / VR, where Vjj is the SAW speed, C and the distance between the centers of the transducers with electrode widths a and a2, respectively. the imposition of a shifting field H N) (a) the signal stays at time 1, since the converters with the width of the electrodes ats effectively operate. With the field H, 2) the signal is delayed by the time,. Since y, then i, b2 and since, then H H, j. The proposed delay line in the frequency domain works as a filter. In this case, the period d of the arrangement of the electrodes varies in direct proportion to their width a (Fig. 2), i.e. in the frequency tuning mode, the period and the horin of the electrodes 4 along the conductor 1 change. The period and width of the strips can vary, both stepwise and continuously. In the first case, the 1 74 delay line is reduced to two delay lines with an electrode width a | and aj and period d and d, respectively, with the same delay time 1 and frequencies f - V, / dj. When applying a bias field H Itz (a |), a signal with a frequency f passes through the delay line, since in this field the transducers with a period d effectively work. When the field Hj N «(32) passes the signal with frequency f. The width of the electrodes in this case is a piecewise continuous step function of frequency. When performing a delay line designed for operation in the frequency domain with transducers that are symmetrical with respect to each other, simultaneously with the frequency change, the delay time will vary according to a linear or nonlinear law. Thus, the range of variation of the delay time and frequency does not depend on the physical characteristics of the material, from which o the delay line is made, but determined by the design of the transducers and can be close to the theoretical limit, while the known delay lines provide a restructuring of no more than 3%.

Claims (3)

> 849430, class Н 03 Н 9/00, 1978. ($ 4) 1. tunable DELAY on SURFACE ACOUSTIC WAVES containing sources of biasing constant and alternating magnetic fields and a sound duct located in the zone of their action with input and output converters located on it, consisting of magnetostrictive systems stripe electrodes, distinguished by the fact that, in order to expand the limits of adjustment of the adjustable parameter, the width of the strip electrodes in the direction of propagation of the surface acoustic wave is made by changing scheysya in accordance with the law of change of the controlled parameter. 2. The delay line in π. 1, characterized in that the period of location of the strip electrodes is constant, while the input and output converters are made symmetrical with respect to one another. ί 3. The delay line according to claim 1, characterized in that the period of location of the strip electrodes varies in direct proportion to their width, while the input and output converters are asymmetric with respect to one another.