SU814336A1 - Device for examining man's acoustic function - Google Patents

Description

one

The invention relates to medical technology, namely, to audiometric devices and can be used to diagnose, determine the hearing function of the newborn, assess the state of hearing in various forms of hearing loss / and also determine the possibility of determining hearing-improving operations.

A device for studying the human hearing function is known, which comprises a multi-frequency acoustic signal generator, an electroacoustic transducer and successively connected electrodes, an amplifier, a drive and a recording device 11.

However, the known device does not provide an objective determination of the state of hearing directly in the process of hearing and hearing improvement.

The purpose of the invention is to objectively determine the state of the auditory function of a person directly in the process of carrying out a hearing-improving operation.

The goal is achieved by the fact that a sync channel channel is introduced in the device, made in the form of series-connected multiplies

body and clock frequency generator, and the drive is made in the form of serially connected analog-digital converter and digital filter, the synchronization channel input is connected to the output of the sound frequency signal generator, and the synchronizer output is connected to the digital filter input

0 drive.

The drawing shows a block diagram of a device for the study of human auditory function.

The device contains a generator 5 1 sound mono-frequency signal, electro-acoustic transducer 2 with adjustable; m and measured signal level, electrode 3 for removing biopotentials, amplifier 4 bio0 potentials, biopotential signal accumulator, made in the form of antiscale digital converter 5 and digital filter 6, signal indicator 7 and sync channel

5 made in the form of a generator 8 clock frequency and a multiplier 9 frequency.

The output of the generator 1 sound signal is connected to the generator of 8 tactical pulses through a multiplier

9 frequencies. In this case, the multiplication factor is taken to be equal to the ratio of the frequency of clock pulses to the frequency of adjustment of the digital filter.

The device works as follows.

The output of the mono-audio signal generator 1 is connected to the INPUT of an electro-acoustic transducer 2 installed at a certain distance from the patient's ear. The direction of sound emission is also fixed. The intensity of the radiation can be regulated over a wide range. The biopotential arising in the cochlea of the human ear, in response to sound, the irritation is removed by means of electrode 3, from where it enters the amplifier 4 biopotentials. The output voltage from amplifier 4, which is a mixture of a signal with interference, is fed to analog-to-digital converter 5, after which this mixture is digitally fed to a narrow-band digital filter b, which filters the signal from the noise. The clock input of the digital filter b receives pulses from the generator 8 clock frequency. The frequency of the clock pulses is determined by the frequency of adjustment of the digital filter b. The synchronization input of the generator 8 clock pulses through the frequency multiplier 9 receives the voltage from the generator 1 of the audio mono frequency signal. This ensures the normal operation of the device independently of both the instability of the generator 1 of the mono-frequency sound signal and the instability of the oscillator 8 of the clock frequency. From the output of the digital filter, the signal is fed to the indicator 7 and read from it.

The synchronization method used in the device eliminates the influence of the mutual instability of the oscillator frequency and the filter tuning frequency, which makes it possible to narrow the filter bandwidth to a value limited only by the allowable rise time of the signal at the filter output, that is, the maximum time allowed for obtaining results research. At the maximum allowed in the process of the hearing-improving operation, the results of the study of the order of 5-10 s, the passband of the filter can be narrowed to 0.10.2 Hz, which allows significantly more than 30 dB) to increase the signal-to-noise ratio at the filter output and, thus, to allocate very weak signals, providing an objective assessment of the acuity of a person’s hearing even with a significant loss of it.

Claims (1)

Invention Formula 0 A device for the study of human hearing function, containing a generator of an audio mono-frequency signal, an electroacoustic transducer and series-connected electrodes, an amplifier, drive and recording device, characterized by that in order to objectively determine the state of the human auditory function Q directly in the process of conducting the hearing-improving operation, a synchronization channel is inserted in it, made in the form of a serially connected multiplier and a clock frequency generator, and the drive is made in the form of a serially connected analog-to-digital converter and a digital filter, the synchronization channel input connected to the output of the audio mono-frequency signal generator and the synchronizer output is connected to the input of the digital storage device. Information sources, taken into account during the examination 1. Platt G et al. A device for measuring the transfer functions of the outer ear by the impulse method, Aachen, Fortshritte Akustik, 1973, p. 463-466. ai I