SU1012461A1 - Method of measuring relative variation in sensitivity of electroacoustic transducer - Google Patents

Abstract

METHOD OF JESERENA that, in order to improve the measurement accuracy, the inverter and the auxiliary emitter are reversible, Vrabuzh-give simultaneously at different frequencies kgg is the voltage at the output of the graduated transformer at the frequency of the reversible thermoformer and, according to the results, the court is more relative to the change in sensitivity.

Description

The invention relates to measuring equipment and can be used to determine the relative change in the sensitivity of the electro-acoustic transducer directly under operating conditions when changing external factors.

A known method of calibration (and, consequently, measuring the relative change in sensitivity) of electro-acoustic transducers, requiring the removal of the transducer from the operating state and its subsequent calibration in special laboratory facilities that implement these methods [1].

The disadvantage of this method is that the operating conditions and the calibration conditions of the Converter do not match. This can lead to large errors in measuring changes in the parameters of the transducer operated in conditions characterized by changes in external factors.

Closest to the proposed method is a relative change in the sensitivity of an electro-acoustic transducer, including the excitation of a reversible transducer and an auxiliary emitter, measuring the voltages at the outputs of a graduated and reversible transducers upon excitation, an auxiliary emitter and the excitation current of a reversible transducer G 2].

The disadvantage of this method is the low accuracy of the measurements. , The aim of the invention is to improve the accuracy of measurements.

This goal is achieved by the fact that according to the method for the relative change in sensitivity of the electro-acoustic transducer, which includes the excitation of a reversible transducer and an auxiliary emitter, the measurement of voltages at the outputs of a graduated and reversible transducers upon excitation of an auxiliary emitter and the excitation current of a reversible transducer excite both at different frequencies, additionally measure the voltage at the output According to the results obtained, they indicate a relative change in the sensitivity of the calibrated transducer at the frequency of the reversible transducer.

The drawing structurally shows one example of a hardware implementation of the method.

The circuit contains a frequency generator 1, a frequency generator 2 f ₂ , an auxiliary emitter 3, a reversible converter 4, a graduated converter 5, a first unit 6 for separating the voltage by frequency, a second unit 7 for separating the voltage by frequency, a selective current meter 8.

With the simultaneous operation of generators 1 and 2, the emitter 3 and the reversible transducer emit acoustic waves with a frequency f ₁ and, respectively. These waves are converted into a total electrical signal in a graduated transducer, the desired components of which (Ig ^ and Ur ") are measured at the output of the first frequency separation unit ⁴ .

The electronic nodes 7 and 8 function in a similar way. With their help, a voltage is released (^ frequency C at the output of the reversible converter and a signal proportional to the current value 3 ₂ , corresponding to the excitation of the reversible converter at a frequency f _2. Ϊ́

The change in the sensitivity of the transducer taking place at the time instant (relative to time t 1, is calculated by the moment according to the formula where i ^b | U Hz and Г2 t = t ₂

The implementation of the method ^ excludes switching of electric circuits of the reversible, reversible converter (with the aim of organizing two modes separated in time - radiation and reception), i.e. eliminates the source of error.

The proposed method can be implemented in the process of using a graduated transducer for its main purpose. This makes it possible to increase the accuracy and information content of research experiments and control of the parameters of devices, blocks and machines as a whole under extreme rapidly changing conditions.

Claims (1)

2. Blinova L. B. and. Dr. Acoustic measurements, M., publishing house of standards, 1971, ^ p. 188-192, 226-230 (prototype). ($ 4) (57) METHOD OF MEASURING RELATIVE CHANGE RESPONSE electroacoustic transducer comprising excitation reversible converter and the auxiliary radiator, measuring the voltages at the outputs of the calibrated and reversible transducer during excitation of the auxiliary emitter and excitation current obratimogopreobrazovatelya wherein _h that, in order to increase the accuracy of measurement , a reversible converter and an auxiliary emitter are excited simultaneously at different frequencies, additionally changing they measure the voltage at the output of the graduated converter at the frequency of the reversible converter and judging by the results obtained! about a relative * change in sensitivity.