SU822386A1 - Method and device for graduating transducers of alternating pressure in acoustically-transparent chamber of static pressure - Google Patents

Description

(54) METHOD OF CALIBRATING THE VARIABLE CONVERTERS

Claims (2)

/ Acousto-PRESSURE CHAMBER ly transparent static overpressure AND DEVICE FOR RBALIZYTSII chamber, the dividing pool -between two nesoobtsayuschies .soboy vessel Rathore noise gene connected to radiate .lyu, a switch, a spectrum analyzer and model The pressure of the converter, with This radiator and pressure transducer are placed in the basin on opposite sides of the acoustically transparent chamber / ga-. DOORABLE and model converters are connected to the corresponding inputs of the switch, the output of which is connected to the input of the spectrum analyzer. The drawing shows schematically a device that implements the method of calibrating transducers. A device for implementing a method for calibrating variable pressure transducers in an acoustically transparent overpressure chamber contains a closed acoustically: transparent chamber 1, with a graduated transducer 2 placed in it, an excess pressure source 3, a coy. A single-chamber device 1, and an emitter 4, an exemplary pressure transducer 5 connected to the spectrum analyzer 6 via a switch 7 and a generator. 8 sh.uma connected to the radiator-4. Acoustic-transparent chamber 1 of the chamber (a ;.en into the reservoir filled with the working fluid 9 openings pool 10, so that it divides the basin 10 into two volumes 11 and 12 which do not communicate with each other, and the radiator 4 and the exemplary pressure transducer 5 are placed in these volumes 11, 12. On opposite sides of the chamber 1. The graduation of the transducers is performed as follows. In an acoustically transparent chamber, a variable pressure is created in the common frequency spectrum with the help of the radiator 4 placed in volume 11 filled with working fluid 9 of pool 10 and generator 8 shu The spectral density of the variable pressure at normal static pressure is determined using a sample pressure transducer 5 and a spectroanal of the mash 6, first placing the reference / converter into chamber 1 and then into volume 12. Then an excess static pressure is created in the chamber source of overpressure 3 and. maintain in it a constant level of alternating pressure by adjusting the output voltage of the generator, pa 8. noise, and controlling its spectral density using an exemplary converter 5. The variable pressure of a variable pressure determines the spectral sensitivity of the calibrated transducer 2, commutes its signal to the spectrum analyzer b using switch 7, and thus performs erq calibration in the presence of high static pressure. Since the calibration is carried out in a continuous frequency spectrum, and in this case the control of the spectral density of the transient pressure is performed, the accuracy of the calibration increases, and due to the absence of the standing waves, the frequency response is expanded. measuring range. . The proposed method improves the accuracy of the calibration of variable transducers. pressure by a factor of 2–3 and an extension of the measurement range — up to the frequencies, defined. capabilities of the measuring instrument. Claims 1. Graduation method, variable pressure converters c. an acoustically transparent chamber of excess. static pressure, based on determining the sensitivity of a calibrated transducer by comparing its sensitivity at different surplus pressures, characterized in that in order to improve accuracy and expansion of the frequency range, in an acoustically transparent (the chamber creates a variable pressure in the overall frequency spectrum, its spectral density at a normal static pressure, and then, maintaining an alternating pressure at the same level in an acoustically transparent chamber, creates in it excessively. tatic pressure and, determined. the spectral sensitivity of the calibrated transducer, produced by its graduation in the presence of an excessive st, atic pressure ... 2. A device for carrying out the method according to claim 1, containing a closed, acoustically transparent chamber , with a calibrated transducer placed in a yay, an overpressure source connected to a chamber, and a radiator placed outside the chamber, FROM: L. and that it is equipped with a pool filled with a working fluid prozr hachna ka- the measure / dividing pool into two non-communicating - between themselves vessels, noise generator / connected to the radiator, switch, spectroan -. By means of a lyser and an exemplary pressure transducer, the emitter and the exemplary pressure transducer are located in the basin, the different sides of the acoustically transparent chamber. Graduated; and exemplary transducers are connected to the corresponding inputs of the switch, the output of which is connected to the input of the spectrum analyzer. Sources of information / taken into account in the examination 1.Robber R. Hydrodynamic measurements. M. / Mir, 1974 / s. 30-32. 2. Bober R. Hydrodynamic measurements. M. / Mir, 1974 / s. 196, X9 (prototype) -.