SU1297261A1 - Method of determining antiresonance frequency of piezoresonators - Google Patents

Abstract

This invention relates to a technique for piezoelectric measurements. The purpose of the invention is to increase accuracy by eliminating the influence of the capacitance of the measuring circuit. Excite, resonator 5 with the help of generator 1, measure the frequency of the maximum current flowing through the resonator 5. The magnitude of the maximum and minimum current is determined by millivolt 4 and the frequency by frequency counter 2. After connecting the capacitor 7, the frequency of the minimum current is measured again. To obtain the maximum measurement accuracy, the capacitance of the capacitor 7 is chosen close to the capacitance of the resonator 5. The frequency of the antiresonator is determined using the above formula. 4 il. sous: cpus .i

Description

The invention relates to the technique of piezoelectric measurements and can be used to determine the parameters of both piezoresonators and active piezoelectric elements of ultrasonic transducers.

The purpose of the invention is to improve accuracy by eliminating the influence of the capacitance of the measuring circuit.

FIG. 1 shows a circuit for determining the frequencies of the maximum and minimum of the current flowing through a piezo resonator; in fig. 2 - the electrical circuit of the piezoresonator is equivalent when operating at frequencies in the region of the main resonance (C and C are, respectively, static and dynamic capacitance; L is the inductance of the dynamic branch of the equivalent circuit); Fig, 3 - the inclusion of the input electrical capacitance of the measuring circuit; in FIG. 4 - connection of an additional capacitor C parallel to the resonator.

The circuit for determining the maximum and minimum current frequencies includes a generator 1, a frequency meter 2, millivolt meters 3 and 4, a piezoresonator 5, a ballast current resistor 6 and an additional capacitor 7.

Parallel to the input of the piezoresonator, two tanks are connected - one with an unknown value Ccx, and the second with a known C.

The method is performed in the following sequence of operations.

Excite the resonator 5 by means of the generator 1j measure the frequency f of the maximum current flowing through the resonator 5. The magnitude of the maximum current is determined by millivoltmeter 4, and the frequency by frequency meter 2., ff

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Similarly, the frequency f of the minimum TOKei flowing through the resonator 5 is measured after connecting in parallel to the measured resonator

the capacitor 7 again measures the frequency of the minimum current. In order to obtain the maximum measurement accuracy, the capacitance of the capacitor 7 is chosen close to the capacitance of the free resonator 5, the frequency f is determined, the antiresonance is given below. The value C (C + C) —the capacity of a free resonator 5 — entering the formula can always be obtained using a measuring bridge.

Claims (1)

Invention Formula The method for determining the frequency of antiresonance of piezoresonators, including excitation of the piezoresonator by alternating electric voltage of constant amplitude, measuring the electric current flowing through it and the frequency f ... ,, .., corresponds to MIN1 for its minimum, about t n and, in order to increase the accuracy by eliminating the influence of the capacitance of the measuring circuit, the frequency f of the maximum of the electric current flowing through the resonator and the frequency „„ „of the minimum of this current when measured in parallel with the piezo resonator the torus, the capacitance C of this capacitor and the capacitance C of the resonator are measured, and the frequency f of the antiresonance is calculated by the formula one f fo -p41 - (nb f -) - tl.- D-NI1CH. IMM i |. (| ± -) g. (B)  - ““ Mj -f4lrM, -c CfJLfff.4 VNIIPI Order 798/63 Random polygons pr-tie, Uzhgorod, st. Project, 4 Circulation 639 Subscription