SU399045A1 - HIGH FREQUENCY PIEZOELECTRIC RESONATOR - Google Patents

Description

one

The invention relates to the field of radio electronics and piezotechnics and can be used in various radio engineering devices both for stabilization and for selection of frequencies.

Known high-frequency piezoelectric resonators containing a quartz plate and propellant electrodes.

However, in the known resonators there are no structural elements that strongly influence the electrical characteristics and intensity of side oscillations, as well as on the frequency separation between the main and side resonances.

In order to control the intensity of collateral oscillations and their separation in frequency from the main oscillation in the proposed resopator, non-overlapping excitation elliptical electrodes are applied to one side of the piezoquartz plate, and a passive electrode of a circular EULT is applied to the other side, having a leading output and covering the area on the reverse side of the quartz plate, both exciting electrodes.

The drawing shows the construction of the proposed high-frequency piezoelectric resonator and a section along AA.

Offers | 1 the resonator consists of a piezoquartz plate of the AT-cut with two excitable Il electrodes 2 and 3 deposited on one side of the plate and having an elliptic shape. A passive electrode 4 is applied to the other side of the plate, covering the area of both exciting electrodes 2 and 3. The terminals of which are mopthed into a crystal holder, a glass case enclosed in a sealed metal plp.

The proposed device works as follows.

When a resonator is excited by a high-frequency voltage applied to the excited electrodes 2 p 3, under the action of polarized charges, an electrical connection arises between the electrodamp 2 being excited and the active zones 5 and 6, which are formed by the overlap of electrode 4 and the excitation electrodes 2 and 3 at the main resonance. The fundamental frequencies of the active zones 5 1 6 are equal, which takes place at the same masses of the exciting electrodes 2 and 3 p and the dimensional thickness of the passive electrode 4. This results in Of course, the activity of the resonator at the main resonance is determined by the total activity of zones 5 and 6. The static capacitance

The resonator depends only on one of the active zones 5 and 6.

P1nteisnvnost side oscillations, as well as their separation in frequency from the main resonance depends, notably, the piezoelectric quartz of the plate /, the thickness of the electrode 4 and its area (i.e. depends on the size of the active zones 5 and determined by the area of the passive electrode 4).

When a side oscillation is excited in one of the active zones 5 or 5, the other is capacitive in nature, thereby introducing an additional attenuation into this oscillation and shifting it simultaneously in frequency from the main resonance.

Thus, choosing the appropriate area and thickness of the passive electrode 4, it is possible to change both the intensity and the spacing in frequency from the main resonance side

fluctuations. In addition, the reduction of the areas of the active zones 5 and 5 leads to a decrease in the static capacitance of the quartz resonator.

Subject invention

A high-frequency piezoelectric resonator containing a quartz plate and exciting electrodes, characterized in that, in order to be able to control the intensity of side oscillations and their separation in frequency from the main oscillation, non-overlapping excitation electrodes of an elliptical shape are applied to one side of the quartz plate a round-shaped passive electrode is applied that overlaps both exciting electrodes.

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