SU792541A1 - Quartz resonator with temperature-stabilized piezoelement - Google Patents

Description

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

Known quartz resonator with a thermostatically controlled piezoelectric element containing a closed heat chamber mounted on the legs of the holder with a piezoelectric element, a heater and a temperature sensor placed in it [1].

A disadvantage of the known resonator is the long time for reaching the stationary mode and the temperature spread on the piezoelectric element, which reduces the frequency stability.

Also known is a quartz resonator with a thermostatically controlled piezoelectric element, containing a vacuum cylinder coated with a material with a low coefficient of heat absorption, a holder with legs, a heater with leads and a piezoelectric element [2].

The disadvantage of this resonator is the low accuracy of maintaining the temperature on the piezoelectric element and the long time the resonator reaches the specified mode.

The aim of the invention is to reduce the time that the resonator reaches the specified mode and increase the accuracy of maintaining the temperature at the psezoelement.

This goal is achieved by the fact that in the quartz resonator a thermostatically controlled piezoelectric element containing a vacuum cylinder coated with a material with a low coefficient of absorption of heat, a holder with legs, a heater with leads and a piezo element, a patch plate with buffer heating is installed located between the terminals of the heater and the legs holder, and a ring made with corrugations, in the grooves of which a piezoelectric element is fixed.

In FIG. 1 shows a quartz resonator; in FIG. 2 is a section AA in FIG. 1.

The quartz resonator contains a switching board 1, legs 2 of the holder 3, a piezoelectric element 4, a ring 5, a rack 6, a cylinder 7, a spring loaded 8, conclusions 9.

The introduction of the switching circuit board 1 with buffer heating allows forcing the forced heating mode, which provides a significant reduction in the time the quartz resonator reaches the specified mode. The value of the buffer resistance is knocked out e

from the conditions of exclusion of the temperature gradient between the contact pads of the piezoelectric element 4 and the switching circuit 1 connected by the terminals 9.

. Ring 5 is made with corrugations to eliminate mechanical stress,. transmitted to the piezoelectric element 4, arising ⁵ due to the temperature coefficients of the materials used.

To reduce temperature imbalances on a thermostatically controlled piezoelectric element 4, ring 5 is made, for example, of nichrome, l is included in the heating circuit.

Patch plate 1 is mounted motionless on the legs 2 of the holder 3 under the piezoelectric element 4, which is closed - 15 is replicated on one side by two points in the grooves of the ring 5 ,. connected to the stand 6. The stand 6 is fixedly mounted on the legs 2 of the holder 3. and is elastically supported on the walls of the cylinder 7 through 20 spring-loaded 8. Conclusions 9 connect the piezoelectric element 4. to the switching board 1.

The presence of a switchboard with buffer heating and rings with corrugations increase the quality characteristics of the quartz resonator and its reliability, which allows it to be used in high stability systems with a minimum time to reach the specified mode.

Claims (2)

The invention relates to the field of radio electronics and can be used in the manufacture of quartz resonators. A quartz resonator with a thermostated piezoelectric element containing a closed heat chamber with a piezoelectric element mounted on the legs of the holder, a heater and a temperature sensor is known. A quartz resonator with a thermostated piezoelectric element is also known, which contains an evacuated balloon coated with a material with a low coefficient of heat absorption, a holder with legs, a heater with leads, and a piezoelectric element 2. preset mode. The aim of the invention is to reduce the time for a resonator to reach a predetermined mode and to increase the accuracy of temperature maintenance on a piezoelectric element. This goal is achieved in that a quartz resonator with a thermostated piezoelectric element containing a vacuumized balloon coated with a material with a low heat absorption coefficient with legs, a heater with leads and a piezo element, a switching board with buffer heating, is inserted between the heater leads, and the holder legs, and the ring is made Fig. 1 shows a quartz resonator; Fig. 2 shows section A-A in Fig. 1. The quartz resonator contains a switching board 1, legs 2 of holder 3, piezoelectric element 4, ring 5, rack 6, cylinder 7, spring 8, pins 9 .. IntroductionU switching board 1 with buffer heating allows the forced heating mode, which provides a significant reduction in the time vnhola quartz resonator at a given pin. The magnitude of the buffer resistance is determined from the conditions for excluding the temperature gradient between the pads of the piezoelectric element 4 and the switching board 1 connected by terminals 9. Ring 5 is made with corrugations to exclude mechanical stresses transmitted to the piezoelectric element 4 due to the temperature coefficients of the materials used. To reduce the temperature translations on the thermostatically controlled piezoelement 4, ring 5 is made, for example, of nichrome. TI is included in the heating circuit. The switching board 1 is fixed on the legs 2 of the holder 3 under the piezoelectric element 4, which is fixed on one side by two Points in the grooves of the ring 5 connected to the stand 6. The stand b is fixedly fixed on the legs 2 of the holder 3. and elastically supported on the walls of the balloon 7 through spring-loaded 8. Outputs 9 connect the piezoelectric element 4. with a switching board 1. The presence of a switching board with buffer heating and rings with corrugations improve the quality characteristics of a quartz resonator and its reliability, which allows its use emah high stability with a minimum output at a predetermined time mode. Claim resonator with thermostat piezoelectric element, containing evacuated balloon coated with material with low heat absorption coefficient, holder with legs, heater with leads, and piezoelectric element, in order to reduce the time of resonator output to the specified mode and improve accuracy maintain the temperature on the piezoelement, a switching board with buffer heating is inserted into it, located between the heater leads and the legs of the holder, and a ring made with hof s, which is fixed in grooves piezoelement. Sources of information taken into account in the examination 1. USSR certificate number 259178, cl. H 03 H 9/02, 1969. 2. USSR author's certificate number 543146, cl. H 03 H 9/02, 1974. L A-A