SU476665A1 - Thermally stabilized piezoelectric resonator - Google Patents

Description

The invention relates to radio engineering.

A thermally stabilized piezoelectric resonator is known, which contains an evacuated balloon, a quarrel holder in the form of metal struts, a flat element and electrical terminals passing through a heat insulating plate and having portions with high thermal resistance.

The purpose of the invention is to increase the frequency stability of the resonator and reduce the power required for thermal stabilization.

The proposed resonator is characterized in that the quartet racks are equipped with posistor and serve as self-regulating heaters.

FIG. 1 schematically shows a general view of the resonator; in fig. 2 is a graph of the resistance of a Losistor to temperature.

On the quarterer in the form of metal racks 1 with lozistory 2 is fixed by the critical element 3. To create a uniform temperature field in the piezoelement in order to increase the resonator's precision, the piezoelectric element and the quarteer's holder can be placed in a metal case with a base 4 and a clam 5 that can be filled with gas The surface of the housing must have a low degree of blackness, for which a coating 6 is applied to it. Posistor 2 is electrically interconnected in parallel. Racks of quartetherl are thermally and electrically connected to the metal housing. Pin 7 is common for the Losistors and the piezoelectric element, Pin 8 belongs to the piezoelectric element, Pin 9 is connected parallel to the posistor. Conclusions 7, 8 and 9 have sections 10 with high thermal resistance. Conclusions 7 and 8 are insulated from the base 4 of the corulus by a dielectric 11. Conclusions 7–9 through the heat insulating dielectric plate 12.

These elements are located in a vacuum cylinder 13. To reduce heat transfer to the surrounding medium, a coating 14 with a small degree of blackness can be applied to the inner surface of the cylinder. Works resonator as follows. When applying voltage to no3iicropax with ambient temperature, power is released, the value of which at constant voltage is determined by the resistance of the losistors. When the temperature of the poppstors reaches the region of a sharp increase in resistance, i.e., the temperature Go (Fig. 2),

The power output is reduced to the value required to compensate for heat loss at a given ambient temperature. This establishes thermal equilibrium.

Thus, when the ambient temperature varies over a very wide range, the temperature of the piezoelectric element 3 stabilizes in a narrow range determined by the temperature coefficient of the posistor resistance in the area of a sharp increase in their resistance and thermal resistance to heat transfer to the surrounding environment.

Subject invention

Thermally stabilized piezoelectric resonator containing evacuated XP

an electric cylinder, a quarter holder in the form of metal racks, a piezoelectric element and electrical leads passing through a heat insulating plate, having areas with high thermal resistance, characterized in that, in order to increase the frequency stability of the resonator, reduce the power required for thermal stabilization, the quarter holder stand is equipped with posistors and serve as self-regulating heaters.

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