SU1096755A1 - Device for measuring losses of electroacoustical conversion - Google Patents

Abstract

A DEVICE FOR MEASURING LOSSES OF ELECTROACOUSTIC CONVERSION, containing successively installed and optically coupled laser, lens, crystalline acoustic conductor with a multielement electroacoustic converter, and a photodetector, characterized in that, in order to accelerate the measurement process, a crystal is inserted into the crystal, and a photo crystal is inserted into it, and a crystal is inserted into the crystal, and between the samples, the crystal is inserted, and the crystal is inserted into the crystal, and the photodetector is inserted into the crystal, and between the samples, the crystal is inserted, and a crystal is inserted into the crystal, and the photodetector is inserted into the crystal by means of a crystal that has been placed in between a sample of the crystal, and a crystal is inserted. rotatably as well as a relation calculation unit, the input of which is connected to the output of the photodetector, the lens being is full of cylindrical. S (Л В; о 05 sj ate

Description

The invention relates to the technical physics and is intended to measure the efficiency of the excitation of acoustic waves in electroacoustic traveling wave converters. A device for measuring the loss of an electroacoustic conversion is known, consisting of a master signal generator, a switch, a high frequency voltmeter, an oscilloscope, and a piezoelectric sound conductor with an electroacoustic converter and an absorber fl. The disadvantage of the device is low measurement accuracy due to the presence of a sound wire with spurious acoustoelectric properties. The device for measuring electroacoustic conversion losses containing a consistently installed and optically coupled laser, a lens, a crystalline sound duct is the closest to the proposed technical essence. with a multi-element electro-acoustic transducer and a photodetector. The work of the known device is that the light beam from the laser, focus At the point of Bragg’s incidence, the optical conductor transforms a traveling acoustic wave with an electroacoustic transducer, which is a line of individual phased acoustic emitters, and excites traveling transducer waves at a certain frequency, which separate and non-intersect near the attachment plane of the transducer. Light diffracted by a separate acoustic beam hits the photo receiver. The magnitude of the measured light intensity is directly proportional to the acoustic intensity in the beam G2 To measure the electroacoustic conversion losses in a known device, the intensities of the acoustic beams are sequentially determined using a focused optical beam, which significantly lengthens the measurement cycle. The purpose of the invention is to accelerate the measurement process. This goal is achieved in that a device for measuring electroacoustic conversion loss, containing a series-mounted and optically coupled laser, a lens, a crystal sound line with a multi-element electro-acoustic converter and a photodetector, is inserted between the crystal sound line and photodetector by a flat mirror, which is rotatable, and the ratio calculation unit, the input of which is connected to the output of the photodetector, the lens being cylindrical. The drawing shows a block diagram of the device. The device contains a laser 1, a cylindrical lens 2, a crystalline sump 3 with multi-element. an electro-acoustic transducer 4, a flat mirror 5, a photodetector 6 and a ratio calculation unit 7. A narrow beam of coherent radiation from the laser 1 enters the cylindrical lens 2 and turns in the same plane. Formed ribbon optical beam falls on the entrance of the crystalline sound duct 3, in which; A multi-element electroacoustic transducer 4 excites acoustic beams. As a result of the interaction of the light and acoustic beams, a diffracted light beam is formed. The diffracted light across the width of the unwrapped beam is a set of light spots with an exponentially decreasing amplitude. Hitting the Flat mirror 5, the diffracted beams of light by rotating the flat mirror 5 are successively directed to the photodetector 6. The signal from the photodetector 6, which is proportional to the intensity of the incident light, is sent to the ratio calculation unit 7, where the decrement is determined by comparing the levels of two consecutive signals. attenuation of the radio signal on one element of the multi-element electro-acoustic transducer 4, which makes it possible to measure the loss of electro-acoustic conversion. The use of the proposed device allows to significantly simplify the measurement of the loss of electricity. bush transformation of multi-element electroacoustic converters

He combines traveling waves, eliminating the caller and measuring the attenuation value of the intensity of the acoustic or acoustic signal at the point of the beams of each of the elements of the light signal transducer.

Claims (1)

DEVICE FOR MEASURING LOSSES OF ELECTROACOUSTIC TRANSFORMATION, comprising a laser, a lens, a crystalline sound guide with a multi-element electro-acoustic transducer and a photodetector, characterized in that, in order to accelerate the measurement process, a plane sound guide and a photodetector are inserted into it between the crystalline sound guide and the photodetector with the possibility of rotation, as well as a relationship calculation unit, the input of which is connected to the output of the photodetector, the lens being made cylindrical.® With OE m ole