SU242006A1 - METHOD OF CALIBRATION OF HYDROPHONES - Google Patents

Description

AposObs are known, consisting in the emission of a radio pulse by a hydrophone, a measurement of the current of the piezoelectric element, and emf. in receive mode.

The peculiarity of the proposed procedure for calibrating hydrophobic background is that they transform the filling frequency of the radiated impulse IB, resist it, multiply it by the piezoelectric current, log the product of these quantities, subtract it from the previously homologized emf value. the piezoelectric element in the nrnema mode and; The resulting difference is fed to the input of a single-type voltmeter, the largest deviation of the moving part of which determines the logarithm of the sensitivity of the hydrophone. This automates the calibration process.

The flowchart implementing the method shown in the drawing.

The block diagram includes a chronizer /, a pulse modulator 2, a high-frequency generator 3, a piezo-element 4 hydrophones, a receiving device 5, a dividing circuit 6 on logarithmic diodes, a peak detector 7 and a self-recording voltmeter 8.

The clock / produces pulses that come to the pulse modulator 2, which controls the operation of the master oscillator 5. The resonant circuit of the generator is parallel to the inductance and is connected with a variable-capacitance capacitor Ci, the rotor of which is mechanically connected to the recorder's tape drive. The frequency of the master oscillator varies in proportion to the rotation time of the rotor of the capacitor C, which ensures the linearity of the frequency scale of the sensitivity spectrogram of the hydrophone.

The master oscillator 3 generates a voltage pulse with high-frequency filling, and also amplifies it by power. The amplified pulse arrives at the hydrophone piezoelectric element, which converts electrical oscillations into ultrasonic ones. Ultrasonic vibrations propagate in the fluid and are reflected. The reflected emulsion reaches the piezoelectric element 4 of the hydrophone and is converted into an electric one. The removed impulse is amplified and transformed into a constant voltage npncMHbiiM by device 5, from the output of which the voltage is applied to one of the terminals of the division circuit 6.

Consistently with the piezoelectric element 4 of the hydrophone, a linear potentiometer R is turned on, the slider of which is mechanically connected with the drive of the diagonal tape of the self-OPI. When the slider moves at a constant speed and simultaneously proportional to the frequency of the master oscillator C, the voltage is removed proportional to the product of the current through the piezoelectric element in the radiation mode and frequency. This voltage is applied to a peak detector 7, where it is converted to a constant voltage and fed to another input of dividing circuit 6. As a result, a logarithm difference is formed at the output of the dividing scheme, which is fed to a self-recording voltmeter 8.

In order to take into account changes in the distance from the piezoelectric element to the free inOiBepxHOCTH of water, as well as the ability to work at different water densities p, in series with a self-recording voltmeter include a variable resistor Ry. Its value is set before calibration. Depending on the ratio -.

Subject matter: Neither

The method of calculating hydrophones with the use of reciprocity lrincil, characterized in that, with the aim of automating the calibration process, the frequency of filling a radio frequency pulse is converted into resistance, multiplied by the piezoelectric element, the product of these values is logarithmized, extracted from the limit, the sample rate, is measured, the sample parameter, is calculated, the product of these quantities is extracted from the limit, the sample parameter, the meter, MAP value of emf the piezoelectric element in reception mode and feeds the resulting difference to the input of a recording voltmeter, the largest deviation of the movable part of which determines the sensitivity of the hydrophone.