SU838591A1 - Method of determining transforming coefficient of piezoaccelerometer - Google Patents

Description

The invention relates to a measurement technique and can be used in determining the conversion coefficient of piezoelectric accelerometers. Methods are known for determining the transform coefficient of a piezo accelerometer by the comparison method with the transform coefficient of a sample piezo accelerometer. The tested and exemplary accelerometers are subjected to the same chewing, measuring the output signals of each of them, and comparing these signals. At the same time, to measure the output signals, each of the accelerometers is connected alternately through the corresponding matching stages to the measuring device LIJ. The disadvantage of the method lies in the low accuracy of the comparison due to the different parameters of the input circuits of the matching stages. The closest to the technical essence and the achieved effect to the proposed method is that the exemplary and npd versed piezo accelerometers are subjected to the same vibration, the piezoactivity selectors are measured and compared with each other. The disadvantage of this method is also the low accuracy of the comparison of the effect on the comparison result of the constant times of both piezo accelerometers when they are connected to the measuring device, which imposes special requirements on the input devices. the parameters of this device, and in a number of cases, additional calculations are required, taking into account the influence of the pairweights of the whole circuit. The purpose of the invention is to improve the accuracy of determining the conversion coefficient of a piezo accelerometer by eliminating the effect on the final result of the constant time of both piezo accelerometers and the measuring device. This goal is achieved by measuring the signal of piezoaccelerometers with their parallel and consistent switching, then with parallel and counter-switching, one thing: temporarily with the measurement measure the change in the phase shift of the measured signal relative to the reference signal j, The piezo accelerometer is determined by the formulas. , (-1) conversion factor, where X., according to the charge of the piezo accelerometer under test; conversion factor for charge of an exemplary piezo accelerometer; voltage when the piezo accelerometers are turned on; voltage when counter-enabled piezoaccelerometers; tf is the change in the phase shift of the measured voltage relative to the reference voltage when the switching direction of the reference piezo accelerometer is changed. FIG. i presents a device for implementing the proposed method in FIG. 2 is a diagram of the connection of piezo accelerometers with a consonant connection) in FIG. 3 - the same, when met. The device contains a selector 1, on the platform 2 of which, via insulating adapters 3, are installed rotatable 4 and model 5 piezo accelerometers. The output of an exemplary piezo accelerometer 5 is connected to the input of the switching unit 6, the output is connected to the input of a millivoltmeter 7 and through the amplifier 8 to the first input of the phase indicator 9, the output of the tested piezo accelerometer 4 is connected to the output of the switching unit With the second input of the phase indicator 9 and the vibrator 1 the output of the generator 10 is connected. The switching unit 6 provides for the counter or consonant switching on of the accelerometers 4 and 5 connected in parallel by the piezo. Measurement of the conversion coefficient for the charge of the piezo accelerometer It is produced as follows. e using a generator 10 platform 2 of the vibrator 1 is given in; oscillatory motion so that the test e1 “1st and exemplary. Piezo-coaxial lerometers connected in parallel are affected by the same vibration. Piezo accelerometers 4 and 5 switch on the switching unit 6 according to (see Fig.2) and measure the voltage on the input of the voltmeter 7, equal to and - D. i -KuiCOa 1 CC1) ") 2. where dj, is the charge of the piezo accelerometer being tested 4; The charge of the standard piezo accelerometer 5 i is constant over the time of two piezo accelerometers 4 and 5, the input of the voltmeter 7. and the amplifier 8, the circular frequency. At the same time, the Phase Motion between U and the reference voltage of the generator 10 is fixed by the phase indicator 9. At the same time, the exact value of the ase shift does not matter. Then, the piezoaccelerometers 4 and 5 are switched on by switching commutator 6 (see Fig., The voltage U is measured at the input of the voltmeter 7 and the phase shift between the voltage i is detected and the voltage from the generator 10. if the difference in phase shifts is LM avna zero, then this is equivalent to, then .ug) and. Г 1- ((uiR) If this is equivalent to QO IA and tuURCU) i From the formulas (3), C) and (5), the charge ratio is found, and hence the charge conversion factors of piezo accelerometers From here K - AT D 0 , PRI 1 (ao °. The positive effect of the proposed method is to improve the accuracy of determining the conversion coefficient of a piezo accelerometer due to the fact that the formula for comparative charge conversion factors does not include the constant time of the piezo accelerometer, voltmeter and amplifier. At both positions switching unit .6 post These times are equal and do not affect the result of the comparison. This makes it possible to conduct a comparison at low frequencies, and the limit towards low frequencies is limited only by the sensitivity of the voltmeter 7. To the measuring volt

Claims (1)

Claim A method for determining the conversion coefficient of a pyeoaccelerometer, ·. consisting in the fact that the exemplary and tested piezoaccelerometers are subjected to the same vibration, the signals of the piezoelectric accelerometers are changed and compared with each other, characterized in that, in order to increase the accuracy of the determination, the signals of the piezo accelerometers are measured when they are switched on in parallel and in agreement, then - with parallel and counter switching, simultaneously with each measurement, the change in the phase shift of the measured signal relative to the reference is recorded, and the value of the conversion coefficient for the charge is checked yaemogo peeoakselerometra determined by the formula. rpm at acneo ⁰ , where Κ _χ is the charge conversion coefficient of the tested pyeoaccelerometer, · K _o is the charge conversion coefficient of the reference pyeoaccelerometer; . _p C, - voltage at a consonant ¹⁰ switching on piezoelectric accelerometers; U _a is the voltage when the piezoelectric accelerometers i 15 D ’/ -; change, phase shift of the measured voltage relative to the reference voltage when changing the direction of inclusion of the reference 20 pyeoaccelerometer.