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Determination of microphone acoustic center from sound field projection measured by optical interferometry

Denny Hermawanto, Kenji Ishikawa, Kohei Yatabe, Yasuhiro Oikawa

2023The Journal of the Acoustical Society of America12 citationsDOI

Abstract

This article presents a method for determining the acoustic center of a microphone from a sound field measured by optical interferometry. The acoustic center defines the equivalent point source position of a microphone serving as a sound source where the spherical waveform starts to diverge. The value is used to determine the effective distance between microphones for free-field reciprocity calibration. Conventionally, it is determined from the inverse distance law properties of a point source using the transfer function method. In this study, the acoustic center was determined from the projection of the sound field of the microphone. Parallel phase-shifting interferometry was used to measure the line integration of the sound pressure from a microphone. The acoustic center is determined as the position where the squared error between the measured data and the projection model of a point source is minimized. Experiments with the B&K 4180 (Brüel & Kjær, Nærum, Denmark) microphone were performed for frequencies from 10 to 50 kHz. The best acoustic center estimation was obtained at a microphone distance of 0 mm, with a difference of 0.17 mm to the IEC 61094-3 value and 0.36 mm to the Barrera-Figueroa et al. [J. Acoust. Soc. Am. 120(5), 2668-2675 (2006)] result at a measurement frequency of 20 kHz.

Topics & Concepts

MicrophoneAcousticsSound pressureAcoustic source localizationCritical distanceInterferometryWaveformPhysicsFree fieldSound intensity probePosition (finance)Sound (geography)OpticsSound powerQuantum mechanicsEconomicsFinanceVoltageFlow Measurement and AnalysisScientific Measurement and Uncertainty EvaluationAdvanced Sensor Technologies Research
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