SU1182627A1 - Variable-frequency resonator of bulk acoustic waves - Google Patents

Abstract

REJECTED BY THE FREQUENCY OF THE RESONATOR OF A SURROUND ACOUSTIC WAVES, containing an adjustable source of a constant magnetic field. a piezoelectric transducer with electrodes, made in the form of a plate and placed between the opposite poles of the magnet of the source of a magnetic field, and a layer of magnetic material, characterized in that, in order to increase the frequency tuning range of the resonator, the layer of magnetic material is made in the form of a 2-section plate a hematite single crystal placed on the bottom face of the piezoelectric transducer, with the polar axis of the piezoelectric transducer perpendicular to the ends of the magnets of the source of a constant magnetic field and count (Line The crystallographic axis X of a hematite single crystal 00 IND Oi tc |

Description

1 The ibeat is related to radio electronics, in particular to piezoresonators of bulk acoustic waves, and can be used for frequency selection of signals or as a frequency-generating element of highly stable oscillators. The aim of the invention is to increase the tuning range of a resonator part. The drawing shows the construction of a tunable resonator of bulk acoustic waves. The frequency tunable resonator contains a layer of magnetic material in the form of a plate, a slice of a hematite crystal, 1 piezoelectric transducer 2 with electrodes 3, 4, and an adjustable source 5 of a constant magnetic п field. The device works as follows. When a variable voltage is applied to the electrodes 3, 4 of the piezoelectric transducer 2, an electric current flows through it, the value of which depends on the frequency and is maximum at a frequency coinciding with the frequency of the mechanical resonator tunable at the frequency of the resonator. The latter depends on the elastic properties of the piezo-transforms of the bodies 2 and the plate of the hematite 7 single crystal, as well as on the ratio of their geometric dimensions. With a change in the magnitude of the external magnetic field created by the adjustable source 5 of a constant magnetic field, the elastic properties of hematite change, which in turn leads to a change in the resonance frequency of the tunable resonator. At the same time, due to the orientation of the polar axis of the piezoelectric transducer 2 perpendicular to the ends of the magnets of the constant magnetic field source 5 and the collinear crystallographic axis of the hematite single crystal plate 1 in a tunable resonator, oscillations in the plane of the hematite single crystal with the direction of particle displacement along the axis are excited. The resonant frequency of these oscillations is determined by the elastic modulus Cgg of the plate of monocr / 1 hematite 1. Choosing the direction of the external magnetic field parallel to the X axis of the hematite crystal provides the maximum change in the elastic modulus CjjOT of the field and provides an increase in the frequency tuning range of the resonator 3000 Oe provides a change in the resonant frequency of 20%.

Claims (2)

FREQUENCY CONFIGURABLE RESONATOR OF VOLUME ACOUSTIC WAVES containing an adjustable source of constant magnetic field, a piezoelectric transducer with electrodes, made in the form of a plate and placed between the opposite poles of the magnets of a source of a preferred magnetic field, and a layer of magnetic material, characterized in that, in order to increase the range resonator frequency tuning, the layer of magnetic material is made in the form of a plate 2 “A section of a hematite single crystal placed on the lower edge of the piezoelectric transducer, while the polar axis of the piezoelectric transducer is perpendicular to the ends of the magnets of the source <g of a constant magnetic field and collinear to the crystallographic axis X of the hematite single crystal. SU „.1182627