SU1490501A1 - Method for measuring speed of acoustic waves - Google Patents

Abstract

The invention relates to acoustic measurements and can be used to measure the velocity of a surface acoustic wave (surfactant), in particular, in piezoelectric materials. The purpose of the invention is to improve the measurement accuracy by selecting the range of changing the frequency F of the SAW excitation and the difference ΔL of the distance from the radiator to the receivers. The emitter and receivers are installed on the surface of the material under study, taking into account the maximum V _max and minimum V _min possible values of the surfactant velocity in the material under study and the relative measurement error F. The range of F is selected taking into account ΔL, absolute measurement error ΔL, V _max , V _min , that in each range of F, there is one minimum amplitude of the sum signal of the receivers. The surfactant rate is determined by the frequency F _i , corresponding to the minimum amplitude of the sum signal ΔL and I.

Description

The invention relates to acoustic measurements and can be used to measure the velocity of surface acoustic waves (surfactants), in particular, in piezoelectric materials.

The purpose of the invention is to improve the measurement accuracy by selecting the range of change in the frequency of the excited surfactant to the distance difference from the radiator to the receivers.

A method for measuring the speed of a surface acoustic wave (SAW) is carried out as follows.

The emitter and two receivers are installed on the surface of the material under study so that the difference 4L of the distance from the emitter to the receivers corresponds to the condition

IL

c / sl)

UMOX - SMART jj V

(one)

H «« ks +

 min

f

where c / Syb) is the absolute measurement error and L;

4 WITH

about ate

min

V

and

Max

respectively, the minimum and maximum possible values of the surfactant velocity in the material under study;

relative measurement error f of the surface acoustic wave.

With the help of a radiator in the material under study, a surface acoustic wave is excited and changed

excitation frequency f in one of the ranges according to the relation

(i 1/2) V

UL - f (L)

(i + 1/2) Um.x UL - / (/ J L)

(2)

where i 1,2, ..., n is the range number, and

VMUH

n

V,

- V.

M a cs min

An excited surfactant is received by two receivers, the received signals are summed, the amplitude of the sum signal is recorded, and the frequency fj corresponding to the minimum amplitude of the sum signal is measured.

The rate of surfactant is determined by the formulas

V al

i + 1/2

(3)

When the excitation frequency f is changed in accordance with (3), only one minimum of the amplitude of the sum signal is in the range of change of f.

Claims (1)

Invention Formula the amplitude amplitude amplitude signal of the receivers at each frequency, the measurement of the frequency corresponding to the minimum amplitude of the total signal and the velocity V of the surface acoustic wave taking into account the difference / JL of the distance between the radiator and the receivers and the measured frequency, characterized by In order to improve the measurement accuracy, the frequency range of the excitation of a surface acoustic wave is determined from the condition (i 1/2) Umin .f, L + J (aL) (1 + 1/2) Umaks UL - cf (AL} where i 1,2, ..., n is the number of the range;  mmi AND respectively, the minimum and maximum possible values of V; ef (u L) is the absolute measurement error uL, and the receivers are placed from the condition A method for measuring the speed of surface acoustic waves, including excitation of surface acoustic waves by the emitter in the material under study at several frequencies, 35 receiving excited surface acoustic waves by two receivers, rf (L) MflfcC - V Max + V MM.-U missions Where R relative measurement error f.