SU1536299A1 - Apparatus for measuring sound absorption coefficient - Google Patents

Abstract

The invention relates to measurement technology and can be used in hydrophysical studies. The purpose of the invention is to improve measurement accuracy by equalizing the amplitude-frequency characteristic. Acoustically connected emitters 1 and sound receiver 2, covered by positive feedback by amplifier 3, form an active comb filter, the delay line of which is the test medium. Due to this, at the output of the amplifier 3, peak amplitudes are formed at frequencies for which phase balancing is performed. The amplitude-frequency characteristic is equalized by providing the optimum transmission coefficient of the feedback amplifier 3. 3 il.

Description

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 The invention relates to the immersion technique and the set should be used, in particular, in hydrophysical studies.

The purpose of the invention is to improve the measurement accuracy by equalizing the amplitudes of the si-frequency characteristics (LF),

H php, I is a block diagram of a device for measuring sound absorption coefficient; in fig. 2 and 3 - LCH at the output of the feedback amplifier.

The device for measuring the sound absorption coefficient contains an acoustically connected emitter i and a sound receiver 2, a feedback amplifier, a feedback device 3, a 1-halogen-n converter sensor (LCP) 4, the first and second blocks 5 and 6 of memory , Divider 7, control unit 8, generator of sinusoidal oscillations, controlled by frequency, and unit 10 registers, Sound Emitter 1 inputs and ADC 4 are connected to the feedback wiring Resident 3, the first input of which is connected to the outputs of the generator 9 and receiver 2 sound output LCP 4 connected to the first input of the First memory block 5 and the block 8 up- 3 | 5 EBleni, the output of the first memory block 5 - VH is connected to the input of the divider 7, the first input of the registration unit 10 and the second input of the control unit 8, the output of the Divider 7 is connected to the first input the second memory block 6, the output of which is connected to the second input of the feedback amplifier 3, the first output of the control unit $ is connected to the second inputs of the first and second blocks 5 ii b of the memory, and the second output of the 8 terminal block is connected to a control input of the generator 9 and a second input of the registration unit 10.

The device works as follows.

According to the signal from block 8 / control, the signal from the controlled oscillator 9 is output to the input of the feedback amplifier 3. Acoustically connected in series emitter si, sound receiver 2, covered by a feedback loop controlled by feedback amplifier 3, forms an active comb filter, the delay line of which is a research environment, through which i i e amplifier 3 feedback connection

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a series of consecutive amplitude peaks at frequencies Tt t f is formed. . jfrt3 for which phase balancing is performed. By varying the amplitudes of these peaks, the sound attenuation is judged.

When operating the device in a disturbed environment, the initial frequency response has the form shown in FIG. 2. The alignment of the frequency response of the device is performed during the calibration process, the device. The signal with frequency f0, corresponding to the maximum amplitude, enters the ADC 4, where it is converted into a digital count, recorded in the first memory block 5 and goes to divider 7, where the division into the number corresponding to the upper value of the dynamic range of the device, after which the signal from the control unit 8 records the received number corresponding to the optimal transmission coefficient of the amplifier 3 in the second memory unit 6, During the measurement process in an environment with an unknown sound absorption coefficient, the number recorded in memory block 6, by a signal from control block 8, is fed to feedback amplifier 3, setting its transmission coefficient to be optimal. The transmission coefficient changes around the time of passing the minimum and remains unchanged. from one minimum to another. The measurement result is output to the registration unit 10.

Claims (1)

Invention Formula A device for measuring the sound absorption coefficient, comprising a series-connected sinusoidal oscillation generator and a feedback amplifier, an emitter whose input is connected to the output of a feedback amplifier, a receiver whose output is connected to the input of a feedback amplifier, an analog-to-digital converter and a recording unit, characterized in that, in order to improve the measurement accuracy by equalizing the amplitude-frequency characteristic, it is equipped with first and second memory blocks, a divider and a block the A / D converter input is connected to the output of the feedback amplifier, the A / D converter output is connected to the first inputs of the first memory block and the control unit, the output of the first memory block is connected to the input of the divider, the first input of the recording unit and the second input control unit, the output of the divider is connected to the first input of the second memory unit, the output of which is connected to the second input of the feedback amplifier; the first output of the block The control unit is connected to the second inputs of the first and second memory units, the sinusoidal oscillator is configured to control the frequency, and the second output of the control unit is connected to the control input of the sinusoidal oscillation generator and the second input of the recording unit. one you r in i / vJ4i YU 90150 1W 210 f) FIG. 2 44 b /) , and / J J s /% "J bh / w 50 go t Fyu.5 -Bs Software 210 f, xrq