SU792535A1 - Method of regulating frequency-temperature characteristics of quartz resonators - Google Patents

Description

(54) METHOD FOR REGULATING THE FREQUENCY-TEMPERATURE CHARACTERISTICS OF QUARTZ RESONATORS

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The invention relates to electronics and can be used in the manufacture of quartz resonators.

Methods are known for adjusting the frequency-temperature characteristics (CTF) of quartz resonators subject to mechanical stress, for example, piezoelectric resonators of mechanical parameters, in which the piezoelectric element. they are oriented in advance with respect to the mechanical load vector so that the angle between the vector and the crystallographic axis X of the quartz is 30-35 fl.

The disadvantage of these methods is the impossibility of correcting the CTF after mounting the piezoelectric element.

There is also known a method for controlling the frequency-temperature characteristics of quartz resonators, in which a film coating 2 is applied to or removed from a piezoelectric element equipped with excitation electrodes.

This method makes it possible to correct the CTFs of the resonators after their installation. However, when using this method, the change in the CTX of the piezoelectric element under load and the piezoelectric element without load occurs almost equally. As a result, the difference in CTF of the resonator under load and the CTF of the resonator without load practically remain unchanged both before and after its correction.

The aim of the invention is to increase the stability of the CTF of quartz resonators subjected to mechanical stress.

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This is achieved by using the described method to shift the center of gravity of the exciting electrodes in the plane of the piezoelectric element to its periphery, if the difference in temperature coefficients

A 15 n loaded and unloaded pvEo element is positive, or from the periphery to the center, if it is negative, until the required frequency is obtained. temperature characteristics.

The method is illustrated in the drawing.

The drawing shows a piezoelectric element 1 exposed to compressive mechanical forces F oriented relative to axis 1 of a piezoelement 25 nta at an angle of H. An initial electrode coating 2 with a center of gravity at point 3 having current leads 4 is applied to the piezoelectric element from both sides. Electrode coating after

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Claims (1)

Claim A method of regulating the frequency-temperature characteristics of quartz resonators, in which a piezoelectric element equipped with exciting electrodes is applied or a film coating is removed from it, which differs from the fact that, in order to increase the stability of the frequency-temperature characteristic of the quartz resonator, subjected to mechanical stress, the center of gravity of the exciting electrodes is shifted in the plane of the piezoelectric element from the center of the piezoelectric element to its periphery if the difference in the temperature coefficient of the frequency of the loaded of the second and unloaded piezoelectric element is positive, or from the periphery to the center, if it is negative, until the necessary frequency-temperature characteristic is obtained.