SU1015488A1 - Filter on surface acoustic waves - Google Patents

Abstract

FILTER. ON SURFACE ACOUSTIC WAVES, containing a sound conductor, on the surface of which are located an input reciprocal transducer (IDT) and an output IDT, including a central branch connected through n parallel-connected adjustable attenuators with n equally spaced from each other at d At where At - the sampling interval of the PAWs of the surface acoustic wave, and the taps positioned acoustically successively, and with the fact that, in order to simplify the device, an additional input second IDT and the interdigital structure is disposed between the edge of the acoustic line and the input IDTs A e at a distance from it, connected thereto sinfaeno and configured as oppositely directed coaxial with equidistant combs. the location of the pins, between which parallel passive pins are placed between them, and the central tap of the output transducer is made in the form of one section of the introduced interdigital structure and removed by distance. 2LO from the first tap of the output IDT, between the nth tap of which is at a distance p p - p where is the distance from the input transducer to the first tap of the output vshpg e2 le (n + 1), from it and the other edge of the zvukoprovod additional input IDT is located connected to the input IDT antiphase.

Description

The invention relates to electronics and can be used for phase correction of a radio channel phase-frequency characteristics (the frequency response of which is not constant. A surface acoustic wave filter (SAW) is known, containing a sump, input and output interdigitated transducer (SPD) located on personal distance from the input HS of the apodized change in the degree of overlap of the Cl pins. The disadvantage of this filter is the presence of a high level of diffraction reflections. The closest to the one proposed is a filter on a surfactant containing a sound duct, on the surface of which are located the input IDT / and output IDT, including a central tap connected through 2n connected in parallel adjusting attenuators to (2n + 1) equal to each other at uE Ut - where ut is the interval sampling; surfactant surfactant velocity, and located in a series of acoustically G2 taps. A disadvantage of the known filter is a large number (2p) of adjustable attenuators, which leads to an increase in its dimensions. The purpose of the invention is to simplify the device. The goal set is achieved in that a filter on surface acoustic waves containing a conduit, on the surface of which are located an input reciprocal transducer (LSI) and an output transducer, including a central outlet connected through n connected in parallel, adjustable attenuators with n equidistant from each other. on the other, where At is the surfactant discretization interval, the speed I of the surface acoustic wave, and the taps located acoustically after V, additional input transducer is introduced and and the structure located between the edge of the Zvukovaya and the IDT at the distance of the DS from it is connected in phase with it and made in the form of oppositely directed equidistant combs with coaxial arrangement of the pins, between which they are placed more passively than the pins, and the central outlet of the IDT is made in as one section of the inserted interdigital structure and removed to page 2AR - FROM the first tap of the output transducer between the nth tap of which is at a distance. where E is the distance from the input IDT to the first outlet of the output IDT; ) - the extension of the output from it and another edge of the acoustic duct is an additional input IDT connected to the input input IDT in antiphase. The drawing shows the proposed filter surfactant. The filter contains a chimney 1, an interdigital structure 2, an input VSP 3, an output VSP 4 containing n different polarized broadband taps and a central tappet, an additional input VSP 5, adjustable attenuators b connected to n taps. The filter on the surfactant works as follows. When a short pulse is applied (G-pulse to galvanically connected TSP 3 and 5 and the interdigital structure (TSS) .2 each of them excites, surfactant, propagating along: the direction of TSP 4. Since the distance P from TSP 5 to n After the delay time t, corresponding to the distance o, the reception of surfactant from the 5 pm outlet will begin, and at the filter output and the amplitude corresponding to this tap. Similarly, the SAW signal is received from the IDP 5 in all tap x (1-n) for the time interval fp-prp + (nl) 4t. At the central tap of the VSP 4, there will be no surfactant reception from the IDP 5 due to the different structure of these electrodes. By the time point (Td + n At) corresponding to the delay the signal between the VSG 2 and the central tap, the filter output will receive a single amplitude signal and the required phase corresponding to the central sample of the generated filter impulse response.At the time CQ + (n + l) / at according to the selected delay between IDT 3 and IDT 4 signal reaches the first tap and the output is a signal with the same amplitude but with the opposite phase with respect to the signal received at this tap when the SAW passes from the IDT 5 at the time Tp + (n − l) t. Similarly, surfactant reception occurs in the IDP 3 at all taps (1-n) in the time interval tjj + (n + l) t - t; Q + 2n At. As a result, by the time (tp + 2n At) an antisymmetric with respect to the central unit signal will be formed

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output impulse response with filter adjustment on surfactant ea

scrap scrap 4 between byd-. account halving the number of reny signals and the total extended-attenuated attenuator,

tew. filter dimensions and increases the point, but | settings at the expense of the automatic proposed device to reduce the amplitude equality

em, the complexity and complexity of the process in antisymmetric taps.

Claims (1)

FILTER. ON SURFACE ACOUSTIC WAVES, containing a sound proof, on the surface of which are located an input interdigital transducer (IDT) and an output IDT, including a central outlet connected through η connected in parallel adjustable attenuators with η equally spaced from each other on Д₽ = At ^ν _ηΑβ 'where At is the sampling interval; ν _ηΑΒ is the speed of the surface acoustic wave, and located acoustically sequential taps, characterized in that, in order to simplify the device, an additional input IDT and an interdigital structure located between the edge of the sound duct and the input IDT at the distance of the DS from it are introduced connected with it in phase and made in the form of counter-directed equidistant combs with coaxial. by the arrangement of pins, between which passive pins are placed parallel to them, and the central branch * of the output IDT is made in the form of one section of an inserted interdigital structure and a distance unit. 2δΕ from the first tap of the output IDT, between the ηth tap of which at a distance of ~ ^ 2 'where is the distance from the input IDT to the first tap of the output IDT; e ₂ = de (n + 1), from it and the other edge of the sound duct there is an additional input IDT connected to the input IDT in antiphase. SU L 015488 degree filter level